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A plethora of data has highlighted the role of epigenetics in the development of cancer. Initiation and progression of different cancer types are associated with a variety of changes of epigenetic mechanisms, including aberrant DNA methylation, histone modifications, and miRNA expression. At the same time, advances in the available epigenetic tools allow to investigate and reverse these epigenetic changes and form the basis for the development of anticancer drugs in human oncology. Although human and canine cancer shares several common features, only recently that studies emerged investigating the epigenetic landscape in canine cancer and applying epigenetic modulators to canine cancer. This review focuses on the existing studies involving epigenetic changes in different types of canine cancer and the use of small-molecule inhibitors in canine cancer cells.
Rationale: Bronchiolitis obliterans syndrome (BOS) is a severe, chronic inflammation of the airways leading to an obstruction of the bronchioles. So far, there are only a few studies looking at the long‐term development of pulmonary impairment in children with BOS.
Objective: The objective of this study was to investigate the incidence and long‐term outcome of BOS in children who underwent allogeneic hematopoietic stem cell transplantation (HSCT).
Methods: Medical charts of 526 children undergoing HSCT in Frankfurt/Main, Germany between 2000 and 2017 were analyzed retrospectively and as a result, 14 patients with BOS were identified. A total of 271 lung functions (spirometry and body plethysmography), 26 lung clearance indices (LCI), and 46 chest high‐resolution computed tomography (HRCT) of these 14 patients with BOS were evaluated.
Results: Fourteen patients suffered from BOS after HSCT (2.7%), whereby three distinctive patterns of lung function impairment were observed: three out of 14 patients showed a progressive lung function decline; two died and one received a lung transplant. In five out of 14 patients with BOS persisted with a severe obstructive and secondarily restrictive pattern in lung function (forced vital capacity [FVC] < 60%, forced expiratory volume in 1 second [FEV1] < 50%, and FEV1/FVC < 0.7) and increased LCI (11.67‐20.9), six out of 14 patients recovered completely after moderate lung function impairment and signs of BOS on HRCT. Long‐term FVC in absolute numbers was increased indicating that the children still have lung growth.
Conclusion: Our results showed that the incidence of BOS in children is low. BOS was associated with high mortality and may lead to persistent obstructive lung disease; although, lung growth continued to exist.
Unresolved inflammation maintained by release of danger‐associated molecular patterns, particularly high‐mobility group box‐1 (HMGB1), is crucial for hepatocellular carcinoma (HCC) pathogenesis. To further characterize interactions between leucocytes and necrotic cancerous tissue, a cellular model of necroinflammation was studied in which murine Raw 264.7 macrophages or primary splenocytes were exposed to necrotic lysates (N‐lys) of murine hepatoma cells or primary hepatocytes. In comparison to those derived from primary hepatocytes, N‐lys from hepatoma cells were highly active—inducing in macrophages efficient expression of inflammatory cytokines like C‐X‐C motif ligand‐2 , tumor necrosis factor‐α, interleukin (IL)‐6 and IL‐23‐p19. This activity associated with higher levels of HMGB1 in hepatoma cells and was curbed by pharmacological blockage of the receptor for advanced glycation end product (RAGE)/HMGB1 axis or the mitogen‐activated protein kinases ERK1/2 pathway. Analysis of murine splenocytes furthermore demonstrated that N‐lys did not comprise of functionally relevant amounts of TLR4 agonists. Finally, N‐lys derived from hepatoma cells supported inflammatory splenic Th17 and Th1 polarization as detected by IL‐17, IL‐22 or interferon‐γ production. Altogether, a straightforward applicable model was established which allows for biochemical characterization of immunoregulation by HCC necrosis in cell culture. Data presented indicate a remarkably inflammatory capacity of necrotic hepatoma cells that, at least partly, depends on the RAGE/HMGB1 axis and may shape immunological properties of the HCC microenvironment.
Background and Aim: Several studies observed alterations in the gut microbiota in patients with non‐alcoholic fatty liver disease (NAFLD). However, analyzed patient populations and methods strongly differ among these studies. The aim of this study was to prove the reproducibility of published results and to provide a detailed overview of all findings in our NAFLD cohort using next generation sequencing methods.
Methods: The individual taxonomic microbiota composition of fecal samples from 90 NAFLD patients and 21 healthy controls was analyzed using 16S rRNA gene sequencing. Study participants were grouped according to their disease stage and compared regarding their gut microbiota composition. Studies were identified from PubMed listed publications, and the results were compared with the findings in our cohort.
Results: Results from 13 identified studies were compared with our data. A decreased abundance of the Bacteroidetes and Ruminococcaceae as well as an increased abundance of Lactobacillaceae and Veillonellaceae and Dorea were the most frequently reported changes among NAFLD patients in 4/13, 5/13, 4/13, 2/13, and 3/13 studies, respectively. Even though these alterations in the gut microbiota composition were also observed in our patient cohort, the majority of published differences could not be reproduced, neither in our own nor in other NAFLD cohort studies.
Conclusion: Despite repeatedly reproduced abundance patterns of specific bacteria, the heterogeneous study results did not reveal a consistent disease specific gut microbiota signature. Further prospective studies with homogenous patient cohorts and standardized methods are necessary to phenotype NAFLD by the gut microbiota.
Objective: Clostridial gas gangrene (GG) or clostridial myonecrosis is a very rare but life‐threatening necrotizing soft tissue infection (NSTI) caused by anaerobic, spore‐forming, and gas‐producing clostridium subspecies. It is the most rapidly spreading and lethal infection in humans, also affecting muscle tissue. The high mortality, of up to 100%, in clostridial GG is mediated by potent bacterial exotoxins. Necrotizing fasciitis (NF) is an important differential diagnosis, most often caused by group A streptococci, primarily not affecting musculature but the subcutaneous tissue and fascia. In the early stages of the infection, it is difficult to distinguish between GG and NF. Therefore, we compare both infection types, identify relevant differences in initial clinical presentation and later course, and present the results of our patients in a retrospective review.
Methods: Patients diagnosed with GG from 2008 to 2018 in our level one trauma center were identified. Their charts were reviewed retrospectively and data analyzed in terms of demographic information, microbiological and histological results, therapeutic course, outcome, and mortality rates. The laboratory risk indicator for NF (LRINEC) score was applied on the first blood work acquired. Results were compared to those of a second group diagnosed with NF.
Results: Five patients with GG and nine patients with NF were included in the present study. Patients with GG had a mortality rate of 80% compared to 0% in patients with NF. In eight patients with NF, affected limbs could be salvaged; one NF underwent amputation. LRINEC did not show significant differences between the groups; however, C‐reactive protein was significantly increased (P = 0.009) and hemoglobin (Hb) was significantly decreased (P = 0.02) in patients with GG. Interleukin‐6 and procalcitonin levels did not show significant difference. Patients with GG were older (70.2 vs 50 years). Of the isolated bacteria, 86% were sensitive to the initial calculated antibiotic treatment with ampicillin‐sulbactam or imipenem plus metronidazole plus clindamycin.
Conclusion: Both GG and NF need full‐scale surgical, antibiotic, and intensive care treatment, especially within the first days. Among patients with NSTI, those with clostridial GG have a significantly increased mortality risk due to early septic shock caused by clostridial toxins. In the initial stages, clinical differences are hardly detectable. Immediate surgical debridement is the key to successful therapy for NSTI and needs to be performed as early as possible. However, patients should be treated in a center with an experienced interdisciplinary intensive care team based on a predetermined treatment plan.
Objectives: To assess tolerability and efficacy of lacosamide in adults with cerebrovascular epilepsy etiology (CVEE).
Materials and methods: Exploratory post hoc analyses of a double‐blind, initial monotherapy trial of lacosamide vs carbamazepine‐controlled release (carbamazepine‐CR) (SP0993; NCT01243177); a double‐blind conversion to lacosamide monotherapy trial (SP0902; NCT00520741); and an observational study of adjunctive lacosamide added to one antiepileptic drug (SP0973 VITOBA; NCT01098162). Patients with CVEE were identified based on epilepsy etiology recorded at baseline.
Results: In the initial monotherapy trial, 61 patients had CVEE (lacosamide: 27; carbamazepine‐CR: 34). 20 (74.1%) patients on lacosamide (27 [79.4%] on carbamazepine‐CR) reported treatment‐emergent adverse events (TEAEs), most commonly (≥10%) headache, dizziness, and fatigue (carbamazepine‐CR: headache, dizziness). A numerically higher proportion of patients on lacosamide than carbamazepine‐CR completed 6 months (22 [81.5%]; 20 [58.8%]) and 12 months (18 [66.7%]; 17 [50.0%]) treatment without seizure at last evaluated dose. In the conversion to monotherapy trial, 26/30 (86.7%) patients with CVEE reported TEAEs, most commonly (≥4 patients) dizziness, convulsion, fatigue, headache, somnolence, and cognitive disorder. During lacosamide monotherapy, 17 (56.7%) patients were 50% responders and six (20.0%) were seizure‐free. In the observational study, 36/83 (43.4%) patients with CVEE reported TEAEs, most commonly (≥5%) fatigue and dizziness. Effectiveness was assessed for 75 patients. During the last 3 months, 60 (80%) were 50% responders and 42 (56.0%) were seizure‐free.
Conclusions: These exploratory post hoc analyses suggested lacosamide was generally well tolerated and effective in patients with CVEE, with data from the initial monotherapy trial suggesting numerically better efficacy than carbamazepine‐CR.
Objective: To explore and describe exposure to suicidality in healthcare providers (HCP) working with oncological patients. Special emphasis was put on five central aspects from the HCPs perspective: Exposure, Confidence, Expertise, Distress, and Education.
Methods: A 48‐item online questionnaire was developed and distributed to HCPs working with cancer patients. Three hundred fifty‐four answered questionnaires were analyzed.
Results: Overall 83.3% of HCPs reported to have encountered at least one suicidal patient in the last year. Feeling confident in talking about suicidality was reported by 72.1% of HCPs, with 71.2% of nurses reporting feeling insecure compared with only 5.1% of psychotherapists. Similarly, 22.3% of HCPs felt overwhelmed when confronted with a patient who substantiated his suicidality during consultation. A lack of personal knowledge concerning suicidality in general and in oncological patients in particular, was reported by 39.6% and 49.8%, respectively. In total, 88.1% of HCPs reported feeling distressed when confronted with suicidality, while 81.1% of participants wanted further education regarding suicidality in cancer patients despite that 73.2% had already received some sort of psycho‐oncology education.
Conclusions: Despite the well‐documented fact of elevated suicide rates in cancer patients, there remain deficits in knowledge, which induce feelings of insecurity and helplessness in HCPs. There is a demand for further education concerning the treatment of suicidal cancer patients. Therefore, special curricula addressing this topic should be devised. A general debate about suicidality in cancer patients could help raise awareness of this problem and generate means of prevention.
The endemic argan woodlands cover large parts of South Morocco and create a characteristic landscape with areas of sparsely vegetated and bare soil surfaces between single trees. This unique ecosystem has been under extensive agrosilvopastoral management for centuries and is now at risk of degradation caused by overgrazing and increasing scarcity and variability of rainfall.
To investigate susceptibility to wind erosion, we conducted an experimental–empirical study including wind tunnel tests and a drone‐generated digital elevation model and quantified wind‐erodible material on five different associated surface types by means of sediment catchers. The highest emission flux was measured on freshly ploughed surfaces (1875 g m–2 h–1), while older ploughed areas with a re‐established crust produced a much lower emission flux (795 g m–2 h–1). Extensive tillage may have been a sustainable practice for generations, but increasing drought and uncertainty of rainfall now lead to an acute risk of severe soil erosion and dust production. The typical crusted surfaces characterized by residual rock fragment accumulation and wash processes produced the second highest emission flux (1,354 g m–2 h–1). Material collected from tree‐shaded areas (933 g m–2 h–1) was revealed to be a considerable source of organic material, possibly affecting substrate conditions positively on a larger regional scale. The lowest flux was measured on rock fragment‐covered surfaces (301 g m–2 h–1).
The data show that open argan woodland may be a considerable source for wind erosion and dust production, depending on surface characteristics strongly related to management. An adapted management must include the conservation of argan trees to offer a promising approach to prevent severe wind erosion and dust production and mitigate possible impacts of land‐use change and climate change related shifts in wind and rainfall patterns.
Recently, photochromic derivatives of nucleobases have drawn attention for regulating oligonucleotide hybridization with light for photopharmacological applications. The nucleobase moiety provides attractive interaction for hybridization, whereas the photochromic moiety can alter the interaction upon irradiation due to conformational changes. Herein we report the synthesis of 2‐phenyldiazenyl‐substituted 2’‐deoxyadenosine (dAAzo) and 2’‐deoxyguanosine (dGAzo) and investigate their influence in a DNA context by UV/Vis absorption, fluorescence and CD spectroscopies. For comparison, the literature‐known azobenzene C‐nucleoside DNAzo was used as a reference system. It could be shown that photochromic purines improve overall hybridization affinity compared to azobenzene C‐nucleosides. In particular, 2’‐deoxyadenosine analogue dAAzo increases melting temperatures by 7.5 °C in the favored trans state with 86 % of the switching efficiency of the reference system.
Type 1 diabetes (T1D) is mainly precipitated by the destruction of insulin-producing β-cells in the pancreatic islets of Langerhans by autoaggressive T cells. The etiology of the disease is still not clear, but besides genetic predisposition the exposure to environmental triggers seems to play a major role. Virus infection of islets has been demonstrated in biopsies of T1D patients, but there is still no firm proof that such an infection indeed results in islet-specific autoimmunity. However, virus infection results in a local inflammation with expression of inflammatory factors, such as cytokines and chemokines that attract and activate immune cells, including potential autoreactive T cells. Many chemokines have been found to be elevated in the serum and expressed by islet cells of T1D patients. In mouse models, it has been demonstrated that β-cells express chemokines involved in the initial recruitment of immune cells to the islets. The bulk load of chemokines is however released by the infiltrating immune cells that also express multiple chemokine receptors. The result is a mutual attraction of antigen-presenting cells and effector immune cells in the local islet microenvironment. Although there is a considerable redundancy within the chemokine ligand-receptor network, a few chemokines, such as CXCL10, seem to play a key role in the T1D pathogenesis. Studies with neutralizing antibodies and investigations in chemokine-deficient mice demonstrated that interfering with certain chemokine ligand-receptor axes might also ameliorate human T1D. However, one important aspect of such a treatment is the time of administration. Blockade of the recruitment of immune cells to the site of autoimmune destruction might not be effective when the disease process is already ongoing. By that time, autoaggressive cells have already arrived in the islet microenvironment and a blockade of migration might even hold them in place leading to accelerated destruction. Thus, an anti-chemokine therapy makes most sense in situations where the cells have not yet migrated to the islets. Such situations include treatment of patients at risk already carrying islet-antigen autoantibodies but are not yet diabetic, islet transplantation recipients, and patients that have undergone a T cell reset as occurring after anti-CD3 antibody treatment.
Safety requirements and the need of low‐migration UV inks have received increasing attention in the packaging industry. Crucial for the development and design of low‐migration UV inkjet inks for migration‐sensitive applications is the polymerization degree. In this study, curing‐behavior of a black, high purity packaging ink (HPP‐ink) was monitored using ATR‐FTIR spectroscopy. UV irradiation of HPP‐ink led to changes in specific absorption bands of the FTIR spectra due to crosslinking reaction of double bonds. Changes in absorptions bands at 1,408 and 1,321 cm−1 permitted the determination of CC conversion of acrylic and vinyl double bond, independently of one another. In addition, a method was developed which allows the investigation of surface‐cure and deep‐cure behavior, separately.
Hofstadter-Hubbard physics
(2020)
The Hofstadter model, besides the Haldane and Kane-Mele models, is the most common tight-binding model which hosts topologically nontrivial states of matter. In its time-reversal-symmetric formulation the model can even describe topological insulators. Experimentally, the Hofstadter model was realized with ultracold quantum gases in optical lattices which is a wellcontrolled way to engineer quantum states of tight-binding Hamiltonians. Another established control parameter in ultracold quantum gases are twoparticle, on-site interactions, also known as Hubbard interactions. This work aims at introducing the reader to the concepts of topological states of matter, a collection of corresponding tight-binding models, and the methodology to treat interacting topological states with dynamical mean-field theory.We present recent results for inhomogeneous, interacting systems, spinimbalanced magnetic systems, propose experimental detection methods, and extensions to three-dimensional topological states.
Objective: Children with pre-school asthma suffer disproportionally more often from severe asthma exacerbations with emergency visits and hospital admissions compared to school children. Despite this high disease burden, there are only a few reports looking at this particular severe asthma cohort. Similarly, there is little real-life research on the distribution of asthma phenotypes and personalized treatment at discharge in this age group. Patients and Methods: Retrospective analysis of the electronic charts of all children aged 1–5 years with asthma hospitalizations (ICD J45) at the Frankfurt University between 2008 and 2017. An acute severe asthma exacerbation was defined as dyspnea, oxygen demand, and/or systemic steroid therapy. Age, gender, duration of hospitalization, asthma phenotype, treatment, and readmission rate were analyzed. Results: Of 572 patients, 205 met the definition of acute severe asthma. The phenotypic characterization showed 56.1% had allergic asthma, 15.2% eosinophilic asthma and 28.7% non-allergic asthma. Of these patients, 71.7% were discharged with inhaled corticosteroids (ICS) or ICS + long-acting-beta-agonists (LABA), 15.1% with leukotriene antagonists (LTRA) and 7.3% salbutamol on demand. The rate of emergency presentations (emergency department and readmission) within 12 months after discharge was high (n = 42; 20.5%). No phenotype tailored treatment was detectable. Neither the number of eosinophils (>300/μl) nor the treatment at discharge had an effect on emergency visits and readmission rate. Conclusion: Despite protective therapy with ICS, ICS + LABA, or LTRA, the readmission rate was high. Thus, current care and treatment strategies should be reevaluated continuously, in order to better control asthma in pre-school children and prevent hospitalization.
This study examined age‐related differences in the effectiveness of two generative learning strategies (GLSs). Twenty‐five children aged 9–11 and 25 university students aged 17–29 performed a facts learning task in which they had to generate either a prediction or an example before seeing the correct result. We found a significant Age × Learning Strategy interaction, with children remembering more facts after generating predictions rather than examples, whereas both strategies were similarly effective in adults. Pupillary data indicated that predictions stimulated surprise, whereas the effectiveness of example‐based learning correlated with children’s analogical reasoning abilities. These findings suggest that there are different cognitive prerequisites for different GLSs, which results in varying degrees of strategy effectiveness by age.
Photochemical internalization (PCI) is a technology to induce a localized, intracellular enhancement of therapeutics that are processed through endosomal pathways, including gemcitabine in malignant cells. In addition to a direct phototoxic and tumoricidal effect, PCI specifically disrupts endosomal membranes and, thereby, the compartmentalization of certain cytotoxic compounds to enhance a drug’s intended intracellular target reach within the tissue treated.
Non-resectable extrahepatic cholangiocarcinoma (eCCA) is a common primary tumor and gemcitabine/cisplatin chemotherapy is widely considered standard of care for it. PCI is well suited as an endoscopic intervention, and clinical observations in three subjects participating in a phase I/IIa dose escalation safety trial are described. The trial included patients with perihilar, non-resectable CCA suitable for standard-of-care chemotherapy. Per protocol, a single endoscopic PCI procedure with gemcitabine was conducted at the initiation of standard gemcitabine/cisplatin therapy. Sixteen patients enrolled in the initial dose escalation phase of the trial, which later was extended to explore the safety of a second PCI procedure during chemotherapy.
While limited to a case series, the various clinical observations described here serve to illustrate the effects of localized, perihilar tumor targeting in appropriate patients by any safe methodology, including PCI. As previously indicated by clinical data using other localized treatment modalities, adding a directed, tumor-targeting treatment to systemic therapy to ameliorate the progressively expanding extrahepatic tumor burden can have important effects on the overall outcome of systemic treatment in many patients who have incurable eCCA.
A novel, broad-acting peptide inhibitor of double-stranded DNA virus gene expression and replication
(2020)
Viral infections are a global disease burden with only a limited number of antiviral agents available. Due to newly emerging viral pathogens and increasing occurrence of drug resistance, there is a continuous need for additional therapeutic options, preferably with extended target range. In the present study, we describe a novel antiviral peptide with broad activity against several double-stranded DNA viruses. The 22-mer peptide TAT-I24 potently neutralized viruses such as herpes simplex viruses, adenovirus type 5, cytomegalovirus, vaccinia virus, and simian virus 40 in cell culture models, while being less active against RNA viruses. The peptide TAT-I24 therefore represents a novel and promising drug candidate for use against double-stranded DNA viruses.
Particulate autogenous tooth roots are used for alveolar bone augmentation surgery; however, dental plaque may provoke an inflammatory response that may counteract the desired graft consolidation process. Traditional mechanical cleaning of extracted teeth may be of support to lower a possible inflammatory response of the autograft. To test this assumption, extracted porcine teeth were left either uncleaned or underwent mechanical cleaning with a toothbrush and toothpaste before being fragmented and subjected to acid lysis, termed as unclean acid dentine lysate (ucADL) and clean acid dentine lysate (cADL), respectively. The inflammatory responses of murine macrophage RAW 264.7 cells being exposed to the respective acid dentine lysates were evaluated at the level of inflammatory gene expression and IL6 immunoassays. We report here that acid lysates obtained from uncleaned teeth provoked a robust increase in IL1β, IL6, and COX2 in RAW 264.7 cells. The mechanical removal of dental plaque significantly reduced the inflammatory response. Consistently, Limulus tests revealed that tooth cleaning lowers the presence of endotoxins in dentine lysates. To further prove the involvement of endotoxins, a toll-like receptor 4 (TLR4) inhibitor TAK242 was introduced. TAK242 abolished the inflammatory response provoked by acid lysates obtained from uncleaned teeth in RAW 264.7 cells. Moreover, nuclear translocation and phosphorylation of the TLR4 downstream NFκB-p65 were attenuated at the presence of cleaned versus uncleaned dentine lysates. Taken together, our data support the importance of dental plaque removal of teeth being extracted for alveolar bone augmentation surgery.
Volatility clustering and fat tails are prominently observed in financial markets. Here, we analyze the underlying mechanisms of three agent-based models explaining these stylized facts in terms of market instabilities and compare them on empirical grounds. To this end, we first develop a general framework for detecting tail events in stock markets. In particular, we introduce Hawkes processes to automatically identify and date onsets of market turmoils which result in increased volatility. Second, we introduce three different indicators to predict those onsets. Each of the three indicators is derived from and tailored to one of the models, namely quantifying information content, critical slowing down or market risk perception. Finally, we apply our indicators to simulated and real market data. We find that all indicators reliably predict market events on simulated data and clearly distinguish the different models. In contrast, a systematic comparison on the stocks of the Forbes 500 companies shows a markedly lower performance. Overall, predicting the onset of market turmoils appears difficult, yet, over very short time horizons high or rising volatility exhibits some predictive power.
A realistic simulation of the atmospheric boundary layer (ABL) depends on an accurate representation of the land–atmosphere coupling. Land surface temperature (LST) plays an important role in this context and the assimilation of LST can lead to improved estimates of the boundary layer and its processes. We assimilated synthetic satellite LST retrievals derived from a nature run as truth into a fully coupled, state‐of‐the‐art land–atmosphere numeric weather prediction model. As assimilation system a local ensemble transform Kalman filter was used and the control vector was augmented by the soil temperature and humidity. To evaluate the concept of the augmented control vector, two‐day case‐studies with different control vector settings were conducted for clear‐sky periods in March and August 2017. These experiments with hourly LST assimilation were validated against the nature run and overall, the RMSE of atmospheric and soil temperature of the first‐guess (and analysis) were reduced. The temperature estimate of the ABL was particularly improved during daytime as was the estimate of the soil temperature during the whole diurnal cycle. The best impact of LST assimilation on the soil and the ABL was achieved with the augmented control vector. Through the coupling between the soil and the atmosphere, the assimilation of LST can have a positive impact on the temperature forecast of the ABL even after 15 hr because of the memory of the soil. These encouraging results motivate further work towards the assimilation of real satellite LST retrievals.
The Ebola virus (EBOV) can cause severe infections in humans, leading to a fatal outcome in a high percentage of cases. Neutralizing antibodies against the EBOV surface glycoprotein (GP) can prevent infections, demonstrating a straightforward way for an efficient vaccination strategy. Meanwhile, many different anti‐EBOV antibodies have been identified, whereas the exact binding epitopes are often unknown. Here, the analysis of serum samples from an EBOV vaccine trial with the recombinant vesicular stomatitis virus‐Zaire ebolavirus (rVSV‐ZEBOV) and an Ebola virus disease survivor, using high‐density peptide arrays, is presented. In this proof‐of‐principle study, distinct IgG and IgM antibodies binding to different epitopes of EBOV GP is detected: By mapping the whole GP as overlapping peptide fragments, new epitopes and confirmed epitopes from the literature are found. Furthermore, the highly selective binding epitope of a neutralizing monoclonal anti‐EBOV GP antibody could be validated. This shows that peptide arrays can be a valuable tool to study the humoral immune response to vaccines in patients and to support Ebola vaccine development.
Hepatocellular carcinoma (HCC) is highly resistant to anticancer therapy and novel therapeutic strategies are needed. Chronotherapy may become a promising approach because it may improve the efficacy of antimitotic radiation and chemotherapy by considering timing of treatment. To date little is known about time‐of‐day dependent changes of proliferation and DNA damage in HCC. Using transgenic c‐myc/transforming growth factor (TGFα) mice as HCC animal model, we immunohistochemically demonstrated Ki67 as marker for proliferation and γ‐H2AX as marker for DNA damage in HCC and surrounding healthy liver (HL). Core clock genes (Per1, Per2, Cry1, Cry2, Bmal 1, Rev‐erbα and Clock) were examined by qPCR. Data were obtained from samples collected ex vivo at four different time points and from organotypic slice cultures (OSC). Significant differences were found between HCC and HL. In HCC, the number of Ki67 immunoreactive cells showed two peaks (ex vivo: ZT06 middle of day and ZT18 middle of night; OSC: CT04 and CT16). In ex vivo samples, the number of γ‐H2AX positive cells in HCC peaked at ZT18 (middle of the night), while in OSC their number remained high during subjective day and night. In both HCC and HL, clock gene expression showed a time‐of‐day dependent expression ex vivo but no changes in OSC. The expression of Per2 and Cry1 was significantly lower in HCC than in HL. Our data support the concept of chronotherapy of HCC. OSC may become useful to test novel cancer therapies.
Analogical reasoning by comparison is considered a special case of inductive reasoning, which is fundamental to the scientific method. By reasoning analogically, learners can abstract the underlying commonalities of several entities, thereby ignoring single objects’ superficial features. We tested whether different task environments designed to trigger analogical reasoning by comparison would support preschoolers’ induction of the concept of material kind to predict and explain objects’ floating or sinking as a central aspect of scientific reasoning. Specifically, in two experiments, we investigated whether the number of presented objects (one versus two standards), consisting of a specific material and the labeling of objects with the respective material name, would benefit preschoolers’ material-based inferences. For each item set used in both experiments, we asked the children (N = 59 in Experiment 1, N = 99 in Experiment 2) to predict an object’s floating or sinking by matching it to the standards and to verbally explain their selections. As expected, we found a significant effect for the number of standards in both experiments on the prediction task, suggesting that children successfully induced the relevance of material kind by comparison. However, labels did not increase the effect of the standards. In Experiment 2, we found that the children could transfer their conceptual knowledge on material kind but that transfer performance did not differ among the task environments. Our findings suggest that tasks inviting analogical reasoning by comparison with two standards are useful for promoting young children’s scientific reasoning.
Background: To volumetrically assess the bone microstructure following vertical alveolar ridge augmentation using differently conditioned autogenous tooth roots (TR) and second‐stage implant placement.
Materials and methods: The upper premolars were bilaterally extracted in n = 4 beagle dogs and randomly assigned to either autoclavation (TR‐A) or no additional treatment (TR‐C). Subsequently, TR were used as block grafts for vertical alveolar ridge augmentation in both lower quadrants. At 12 weeks, titanium implants were inserted and left to heal 3 weeks. Microcomputed tomography was used to quantify bone volume per tissue volume (BV/TV), trabecular thickness (Tb.Th), and trabecular spacing (Tb.Sp) at vestibular (v) and oral (o) aspects along the implant and in the augmented upper half of the implant, respectively.
Results: Median BV/TV [TR‐C: 51.33% (v) and 70.42% (o) vs TR‐A: 44.05% (v) and 64.46% (o)], Tb.th [TR‐C: 0.22 mm (v) and 0.27 mm (o) vs TR‐A: 0.23 mm (v) and 0.29 mm (o)] and Tb.Sp [TR‐C: 0.26 mm (v) and 0.13 mm (o) vs TR‐A: 0.29 μm (v) and 0.15 mm (o)] values were comparable in both groups.
Conclusion: Both TR‐C and TR‐A grafts were associated with a comparable bone microstructure within the grafted area.
Sphingosine‐1‐phosphate lyase 1 (S1P lyase or SGPL1) is an essential sphingosine‐1‐phosphate‐degrading enzyme. Its manipulation favors onset and progression of colorectal cancer and others in vivo. Thus, SGPL1 is an important modulator of cancer initiation. However, in established cancer, the impact of retrospective SGPL1 modulation is elusive. Herein, we analyzed how SGPL1 siRNA affects malignancy of the human colorectal cancer cells DLD‐1 and found that in parallel to the reduction of SGPL1 expression levels, migration, invasion, and differentiation status changed. Diminished SGPL1 expression was accompanied with reduced cell migration and cell invasion in scratch assays and transwell assays, whereas metabolic activity and proliferation was not altered. Decreased migration was attended by increased cell–cell‐adhesion through upregulation of E‐cadherin and formation of cadherin‐actin complexes. Spreading cell islets showed lower vimentin abundance in border cells. Furthermore, SGPL1 siRNA treatment induced expression of epithelial cell differentiation markers, such as intestinal alkaline phosphatase and cytokeratin 20. Hence, interference with SGPL1 expression augmented a partial redifferentiation of colorectal cancer cells toward normal colon epithelial cells. Our investigation showed that SGPL1 siRNA influenced tumorigenic activity of established colorectal cancer cells. We therefore suggest SGPL1 as a target for lowering malignant potential of already existing cancer.
Hypersensitivity reactions to non‐steroidal anti‐inflammatory drugs (NSAIDs) – a retrospective study
(2020)
Background: The aim of this study was to verify the validity of clinical history and oral provocation challenges of patients with NSAID hypersensitivity and to identify safe alternatives. The COX‐2 inhibitor etoricoxib, in particular, was studied.
Patients and methods: In all, 104 patients with confirmed diagnoses of NSAID hypersensitivity treated at the Department of Dermatology, Frankfurt University Hospital, Germany between 2004 and 2012 were retrospectively studied.
Results: The medical history and hypersensitivity symptoms during oral provocation testing (OPT) largely coincided and were mostly mild to moderate. Acetylsalicylic acid (ASA) was the most frequent trigger both anamnestically (27.9 %) and during OPT (47.8 %). Etoricoxib caused the fewest reactions during OPT (4.2 %). Acetaminophen led to reactions in only 6.7 % of the cases studied although it was named more often in clinical histories (14 %).
Conclusions: OPT should be the aim whenever possible as most symptoms are mild to moderate. To distinguish between selective and cross‐hypersensitivity reactions, ASA should be part of the test protocol. Furthermore, the findings of this study indicate that etoricoxib and acetaminophen are safe treatment alternatives in case of NSAID hypersensitivity. However, these drugs should not be administered without prior OPT in an inpatient setting, as severe symptoms can occur.
Background: The present study aimed to assess the three‐dimensional changes following soft tissue augmentation using free gingival grafts (FGG) at implant sites over a 3‐month follow‐up period.
Methods: This study included 12 patients exhibiting deficient keratinized tissue (KT) width (i.e., <2 mm) at the vestibular aspect of 19 implants who underwent soft tissue augmentation using FGG at second stage surgery following implant placement. Twelve implants were considered for the statistical analysis (n = 12). The region of interest (ROI) was intraorally scanned before surgery (S0), immediately post‐surgery (S1), 30 (S2) and 90 (S3) days after augmentation. Digital scanned files were used for quantification of FGG surface area (SA) and converted to standard tessellation language (STL) format for superimposition and evaluation of thickness changes between the corresponding time points. FGG shrinkage (%) in terms of SA and thickness was calculated between the assessed time points.
Results: Mean FGG SA amounted to 91 (95% CI: 63 to 119), 76.2 (95% CI: 45 to 106), and 61.3 (95% CI: 41 to 81) mm2 at S1, S2, and S3, respectively. Mean FGG SA shrinkage rate was 16.3% (95% CI: 3 to 29) from S1 to S2 and 33% (95% CI: 19 to 46) from S1 to S3. Mean thickness gain from baseline (S0) to S1, S2, and S3 was 1.31 (95% CI: 1.2 to 1.4), 0.82 (95% CI: 0.5 to 1.12), and 0.37 (0.21 to 0.5) mm, respectively. FGG thickness shrinkage was of 38% (95% CI: 17.6 to 58) from S1 to S2 and 71.8% (95% CI: 60 to 84) from S1 to S3. Dimensional changes from S1 to S3 were statistically significant, P <0.017. Soft tissue healing was uneventful in all patients.
Conclusions: The present three‐dimensional assessment suggests that FGG undergo significant dimensional changes in SA and thickness over a 3‐month healing period.
Purpose: Surgery of KOOS IV vestibular schwannoma remains challenging regarding the balance of extent of tumor resection (EoR) and functional outcome. Our aim was to evaluate the outcome of surgical resection and define a cut-off value for safe resection with low risk for tumor regrowth of KOOS IV vestibular schwannoma.
Methods: All patients presenting at the authors’ institution between 2000 and 2019 with surgically treated KOOS IV vestibular schwannoma were included. Outcome measures included EoR, facial/hearing nerve function, surgical complications and progression of residual tumor during the median follow-up period of 28 months.
Results: In 58 patients, mean tumor volume was 17.1 ± 9.2 cm3, and mean EoR of 81.6 ± 16.8% could be achieved. Fifty-one patients were available for the follow-up analysis. Growth of residual tumor was observed in 11 patients (21.6%) followed by adjuvant treatment with stereotactic radiosurgery or repeat surgery in 15 patients (29.4%). Overall serviceable hearing preservation was achieved in 38 patients (74.5%) and good facial outcome at discharge was observed in 66.7% of patients, significantly increasing to 82.4% at follow-up. Independent predictors for residual tumor growth was EoR ≤ 87% (OR11.1) with a higher EoR being associated with a very low number of residual tumor progression amounting to 7.1% at follow-up (p=0.008).
Conclusions: Subtotal tumor resection is a good therapeutic concept in patients with KOOS IV vestibular schwannoma resulting in a high rate of good hearing and facial nerve function and a very low rate of subsequent tumor progression. The goal of surgery should be to achieve more than 87% of tumor resection to keep residual tumor progression low.
Respiratory chain signalling is essential for adaptive remodelling following cardiac ischaemia
(2020)
Cardiac ischaemia‐reperfusion (I/R) injury has been attributed to stress signals arising from an impaired mitochondrial electron transport chain (ETC), which include redox imbalance, metabolic stalling and excessive production of reactive oxygen species (ROS). The alternative oxidase (AOX) is a respiratory enzyme, absent in mammals, that accepts electrons from a reduced quinone pool to reduce oxygen to water, thereby restoring electron flux when impaired and, in the process, blunting ROS production. Hence, AOX represents a natural rescue mechanism from respiratory stress. This study aimed to determine how respiratory restoration through xenotopically expressed AOX affects the re‐perfused post‐ischaemic mouse heart. As expected, AOX supports ETC function and attenuates the ROS load in post‐anoxic heart mitochondria. However, post‐ischaemic cardiac remodelling over 3 and 9 weeks was not improved. AOX blunted transcript levels of factors known to be up‐regulated upon I/R such as the atrial natriuretic peptide (Anp) whilst expression of pro‐fibrotic and pro‐apoptotic transcripts were increased. Ex vivo analysis revealed contractile failure at nine but not 3 weeks after ischaemia whilst label‐free quantitative proteomics identified an increase in proteins promoting adverse extracellular matrix remodelling. Together, this indicates an essential role for ETC‐derived signals during cardiac adaptive remodelling and identified ROS as a possible effector.
A novel thiazol‐based ratiometric dye for the detection of local pH values is synthesized, and its properties are characterized by a combination of optical spectroscopy, solid‐state NMR and DNP (dynamic nuclear polarization)‐enhanced solid‐state NMR. This novel dye covers a completely different sensitivity range with its acidic pKa value of 3.5 compared to other established dyes for ratiometric pH detection, such as SNARF. The dye is grafted to the surfaces of mesoporous silica materials, which enables, for the first time, direct in situ measurements of the local pH values in silica mesopores by a simple UV‐vis spectroscopy method. The obtained results, which are in good agreement with previous indirect techniques, indicate a background electrolyte‐dependent pKa shift of at least one pH unit under nanoconfined conditions compared to the pKa of the dye in bulk solution.
Aims: Preventing hospitalization by detecting early evidence of heart failure (HF) decompensation in an outpatient setting can improve patient's quality of life and reduce costs of care. The purpose of this study was to assess the value of cardiac acoustic biomarkers (CABs), a combination of cardiohaemic vibrations synchronized with ECG signals, and heart rate (HR) for detecting HF decompensation during first 3 months after hospital discharge for HF.
Methods and results: Patients with an ejection fraction ≤35% (HFrEF) and hospitalized for decompensated HF were enrolled in a prospective observational study. All subjects wore a wearable cardioverter‐defibrillator (ZOLL LifeVest®, Pittsburgh, PA, USA) that is capable of recording CABs and HR. The primary endpoint of the study was the first HF event, defined as HF readmission or HF emergency room visit. From June 2017 through August 2019, 671 patients with HFrEF were enrolled. Eighty‐one patients (12.1%) had a total of 112 HF events. The algorithm detected HF events with a median of 32 days (interquartile range = 11‐45) in advance of the first HF event. The algorithm had a sensitivity of 69%, specificity of 60%, positive predictive value of 19%, and a negative predictive value of 94%. Of note, the baseline (first 7 days post‐enrolment) algorithm using CABs and HR was superior to New York Heart Association classification in detecting patients more likely to have HF decompensation (sensitivity and specificity of 61% and 68% vs. 46% and 55%, respectively).
Conclusions: This prospective international registry showed that an algorithm incorporating CABs and HR data detected HF events 30 days in advance of the event in patients with HFrEF during first 3 months after hospital discharge. Therefore, integrating CAB technology into clinical practice may prevent HF rehospitalizations.
Large carnivores often impact human livelihoods and well‐being. Previous research has mostly focused on the negative impacts of large carnivores on human well‐being but has rarely considered the positive aspects of living with large carnivores. In particular, we know very little on people's direct experiences with large carnivores like personal encounters and on people's awareness and tolerance toward their exposure to large carnivores. Here, we focus on the wolf (Canis lupus), and report on a phone survey in Germany. We examined whether encounters with wolves were positive or negative experiences and quantified people's awareness and tolerance related to their exposure to wolves. We found that the majority of people reported positive experiences when encountering wolves, regardless of whether wolves were encountered in the wild within Germany, in the wild abroad, or in captivity. The frequency of encounters did not affect the probability to report positive, neutral, or negative experiences. Moreover, people in Germany expressed a high tolerance of living in close vicinity to wolves. These findings are novel and important because they highlight the positive aspects of living in proximity with large carnivores in human‐dominated landscapes.
Central cholinergic function and metabolic changes in streptozotocin‐induced rat brain injury
(2020)
As glucose hypometabolism in the brain is an early sign of Alzheimer´s dementia (AD), the diabetogenic drug streptozotocin (STZ) has been used to induce Alzheimer‐like pathology in rat brain by intracereboventricular injection (icv‐STZ). However, many details of the pathological mechanism of STZ in this AD model remain unclear. Here, we report metabolic and cholinergic effects of icv‐STZ using microdialysis in freely moving animals. We found that icv‐STZ at a dose of 3 mg/kg (2 × 1.5 mg/kg) causes overt toxicity reflected in body weight loss. Three weeks after STZ administration, histological examination revealed a high number of glial fibrillary acidic protein reactive cells in the hippocampus, accompanied by Fluoro‐Jade C‐positive cells in the CA1 region. Glucose and lactate levels in microdialysates were unchanged, but mitochondrial respiration measured ex vivo was reduced by 9%–15%. High‐affinity choline uptake, choline acetyltransferase, and acetylcholine esterase (AChE) activities in the hippocampus were reduced by 16%, 28%, and 30%, respectively. Importantly, extracellular acetylcholine (ACh) levels in the hippocampus were unchanged and responded to behavioral and pharmacological challenges. In comparison, extracellular ACh levels and cholinergic parameters in the striatum were unchanged or slightly increased. We conclude that the icv‐STZ model poorly reflects central cholinergic dysfunction, an important characteristic of dementia. The icv‐STZ model may be more aptly described as an animal model of hippocampal gliosis.
The digital and information age has fundamentally transformed the way in which students learn and the study material they have at their disposal, especially in higher education. Students need to possess a number of higher-order cognitive and metacognitive skills, including effective information processing and critical reasoning to be able to navigate the Internet and use online sources, even those found outside of academically curated domains and in the depths of the Internet, and to solve (domain-specific) problems. Linking qualitative and quantitative research and connecting the humanities to empirical educational science studies, this article investigates the role of narratives and their impact on university students’ information seeking and their critical online reasoning (COR). This study focuses on the link between students’ online navigation skills, information seeking behavior and critical reasoning with regard to the specific domains: economics and medicine. For the empirical analysis in this article, we draw on a study that assesses the COR skills of undergraduate students of economics and medicine at two German universities. To measure COR skills, we used five tasks from the computer-based assessment “Critical Online Reasoning Assessment” (CORA), which assesses students’ skills in critically evaluating online sources and reasoning using evidence on contentious issues. The conceptual framework of this study is based on an existing methodology – narrative economics and medicine – and discusses its instructional potential and how it can be used to develop a new tool of “wise interventions” to enhance students’ COR in higher education. Based on qualitative content analyses of the students’ written responses, i.e., short essays, three distinct patterns of information seeking behavior among students have been identified. These three patterns – “Unambiguous Fact-Checking,” “Perspective-Taking Without Fact-Checking,” and “Web Credibility-Evaluating” – differ substantially in their potential connection to underlying narratives of information used by students to solve the CORA tasks. This analysis suggests that training university students in narrative analysis can strongly contribute to enhancing their critical online reasoning.
Despite the great interest in glycoproteins, structural information reporting on conformation and dynamics of the sugar moieties are limited. We present a new biochemical method to express proteins with glycans that are selectively labeled with NMR‐active nuclei. We report on the incorporation of 13C‐labeled mannose in the C‐mannosylated UNC‐5 thrombospondin repeat. The conformational landscape of the C‐mannose sugar puckers attached to tryptophan residues of UNC‐5 is characterized by interconversion between the canonical 1C4 state and the B03 / 1S3 state. This flexibility may be essential for protein folding and stabilization. We foresee that this versatile tool to produce proteins with selectively labeled C‐mannose can be applied and adjusted to other systems and modifications and potentially paves a way to advance glycoprotein research by unravelling the dynamical and conformational properties of glycan structures and their interactions.
In der vorliegenden Untersuchung wurde das bovine, Hydroxylapatit-basierte, Knochenersatzmaterial Hypro-Oss® zunächst ex vivo überprüft, anschließend subkutan in den interskapulären Bereich von 12 weiblichen Wistar-Ratten (Testgruppe) eingebracht; bei 12 weiteren Tieren erfolgte eine Sham-Operation ohne Einbringung von Biomaterial (Kontrollgruppe). Anschließend wurde die Gewebereaktion über 30 Tage beobachtet und die Explantate jeweils nach Tag 3, 15 und 30 histologisch und histomorphometrisch untersucht.
Die histologische Analyse zeigte innerhalb des Beobachtungszeitraums von 30 Tagen eine störungsfreie Eingliederung der Hypro-Oss®-Granula in das umliegende Gewebe. Bereits 3 Tage nach Einbringung des Biomaterials waren mononukleäre Zellen erkennbar, die bis Tag 30 weiter zunahmen. Ab diesem Zeitpunkt zeigten sich auch TRAP-positive, CD-68-negative Multinukleäre Zellen, die das Ergebnis einer Fusion von Makrophagen sind und eine Fremdkörperreaktion indizierten. Nach 30 Tagen zeigten sich die Granula histologisch stabil integriert ohne Anzeichen einer immunologischen Abstoßungsreaktion.
Die CD-68-Expression der aufgefundenen Makrophagen und mehrkernigen Riesenzellen bildete ein Kriterium zur Unterscheidung der MNGCs von Osteoklasten, die ebenfalls mehrkernig sind, aber dieses Cluster of Differentiation nicht tragen. Dies charakterisiert die vorgefundenen MNGCs als Fremdkörper-Riesenzellen, da sie ebenso wie die pathologischen Riesenzellen vom Typ Langerhans CD-68 exprimieren.
Dieses Bild bestätigte sich für die Hypro-Oss®-Gruppe in der histomorphometrischen Betrachtung über eine kontinuierliche Zunahme von überwiegend CD-68-positiven Makrophagen bis zum Tag 30, während sie für die Kontrollgruppe über die gesamte Zeit rückläufig waren. Die Multinukleären Zellen erreichten dagegen bereits an Tag 15 ihren Höhepunkt, während in der Kontrollgruppe über den gesamten Beobachtungszeitraum erwartungsgemäß keine MNGCs gefunden wurden.
Der hoch signifikante Anstieg der MNGC-Zahl der Testgruppe bis Tag 15 korreliert positiv mit den Vaskularisationsdaten, was darauf hindeutet, dass die Multinukleären Zellen durch die Einbringung des Biomaterials induziert wurden und über die Sekretion des Signalmoleküls VEGF einen wesentlichen Faktor für die Blutgefäßbildung bilden.
Eine Auffälligkeit hat sich jedoch in Bezug auf das Alleinstellungsmerkmal von Hypro-Oss® gezeigt, welches bei der Aufreinigung nicht erhitzt wird. Diverse Studien haben einen Zusammenhang der Höhe der Sintertemperatur mit der Bildung von MNGCs nachgewiesen, wonach für Hypro-Oss® eine geringe Induzierung von MNGCs zu erwarten gewesen wäre als für vergleichbare, höher erhitzte bovine Knochenersatzmaterialien. Dagegen zeigten die Vaskularisationsdaten unserer Untersuchung für Hypro-Oss® im Vergleich zu 2 anderen bovinen Knochenersatzmaterialien (Bio-Oss® und BEGO OSS®) jedoch signifikant höhere Werte für die Blutgefäßbildung als dies aus der Korrelation von Sintertemperatur mit der Anzahl Multinukleärer Riesenzellen zu erwarten gewesen wäre.
Aufgrund der relativ kurzen Dauer der Beobachtung lassen sich keine belastbaren Ergebnisse in Bezug auf den zu erwartenden Materialabbau und die ossäre Integration von Hypro-Oss® feststellen, welche einer längerfristigen Analyse bedürften als es in dieser Untersuchung möglich war. Es gibt aber klinische Erfahrungsberichte23 hinsichtlich Handling, Heilungsverlauf und Materialintegration von Hypro-Oss® bei Sinusbodenelevation und Guided Bone Regeneration, die auch in der Langfristbetrachtung positive Ergebnisse zeigten. Offen bleibt, ob nicht eine physiologische Wundheilung nur mittels Makrophagen einer pathologischen Wundheilung unter Mitwirkung Multinukleärer Riesenzellen überlegen ist: zumindest robustere Knochenersatzmaterialien wie z.B. das hier untersuchte Hypro-Oss® scheinen dabei weniger sensibel auf Multinukleäre Riesenzellen zu reagieren.
Der Inhalt dieser Arbeit ist die Entwicklung und Evaluation einer mobilen Webanwendung für die Annotation von Texten. Dem Benutzer ist es durch diese Webanwendung, im folgenden auch MobileAnnotator genannt, möglich Wörter und Textausschnitte zu kategorisieren oder auch mit Wissensquellen, zum Beispiel Wikipedia, zu verknüpfen. Der MobileAnnotator ist dabei für mobile Endgeräte ausgelegt und insbesondere für Smartphones optimiert worden.
Für die Funktionalität verwendet der MobileAnnotator die Architektur des bereits existierenden und etablierten TextAnnotators. Dieser stellt bereits eine Vielzahl von Annotations Werkzeugen bereit, von denen zwei auf den MobileAnnotator übertragen wurden. Da der TextAnnotator vollständig für einen Desktopbetrieb ausgelegt wurde, ist es jedoch nicht möglich diese Werkzeuge ohne Anpassungen für ein mobiles Gerät umzubauen. Der MobileAnnotator beschränkt sich somit auf ein Mindestmaß an Funktionen dieser Werkzeuge um sie dem Benutzer in geeigneter Art und Weise verfügbar zu machen.
Für die Evaluation der Benutzerfreundlichkeit des MobileAnnotator und dessen Werkzeuge wurde anschließend eine Studie durchgeführt. Den Probanten war es innerhalb der Studie möglich Aussagen über die Bedienbarkeit des MobileAnnotators zu treffen und einen Vergleich zwischen dem Mobile- und TextAnnotator zu ziehen.
Acute lymphoblastic leukemia (ALL), a neoplastic disorder of blood cells of the lymphoid lineage, is the most frequent childhood cancer. In spite of increasing survival rates, the outcome for adults, infants or relapsed patients is still less favorable, highlighting the need for novel treatment options. Reactive oxygen species (ROS) are important signaling molecules that are involved in a variety of cellular pathways. As high ROS levels lead to oxidative stress and irreversible oxidation of cellular macromolecules, the production and elimination of ROS is tightly controlled. Therefore, cells express several antioxidant molecules and enzymes, including glutathione, catalase and the thioredoxin (Trx) system, to balance ROS levels. As cancer cells were found to have increased ROS levels that could contribute to tumor progression and metastasis, they rely strongly on these antioxidant systems to prevent oxidative damage, making cancer cells especially vulnerable to ROS-inducing treatments. ROS and oxidative stress have been shown to induce programmed cell death via different pathways, however the exact mechanisms that couples oxidative signaling and cell death is not completely understood.
As a disturbance of the cellular redox homeostasis was reported during leukemia development and progression, we wanted to determine the potential of Trx inhibitors for ALL therapy. Additionally, we aimed to further understand the role of ROS and subsequent protein oxidation in the induction and execution of programmed cell death.
First, we demonstrated that the Trx1 inhibitor PX-12 induced cell death in three ALL cell lines. Further analysis of the events leading to PX-12-induced cell death in FADD-deficient (FD) Jurkat cells revealed an increase in ROS levels and oxidation-mediated dimer formation of peroxiredoxin 3 (PRDX3). Interestingly cell death was inhibited by the thiol-containing antioxidant N-acetylcysteine (NAC), but not by non-thiol-containing ROS scavengers. PX-12 treatment further induced cleavage of caspase-9 and -3 and activation of the pro-apoptotic BCL-2 protein BAK, leading us to the conclusion that mitochondria-dependent apoptosis was induced. Interestingly, we could demonstrate an important role for the BH3-only protein NOXA in the mediation of PX-12-induced apoptosis as knock-down of NOXA prevented cell death induction and BAK activation. Our findings give novel insights into the mechanism of PX-12-induced cell death in ALL cell lines and underscores the potential of PX-12 for the treatment of ALL.
To further understand the processes leading to cell death upon inhibition of the Trx system, we analyzed global protein oxidation in Jurkat FD cells upon treatment with the Trx reductase inhibitor Auranofin. In line with previous results, Auranofin induced intrinsic apoptosis that was dependent on BAK and accompanied by increased ROS levels. Using a BIAM Switch Assay followed by mass spectrometry, we demonstrated that Auranofin treatment induced oxidation of over 200 proteins. We identified several proteins whose oxidation upon Auranofin treatment was expected, like Trx1, Trx2 and several peroxiredoxins. Additionally, we verified oxidation of APAF1-interacting protein (APIP) and protein arginine N-methyltransferase (PRMT1) that are both implicated in the regulation of apoptosis. With this analysis we were able to demonstrate that Auranofin treatment leads to changes in global protein oxidation. Whether oxidation of the determined proteins changes their functionality and contributes to apoptosis induction remains to be elucidated.
As we identified BAK as an important player in PX-12- and Auranofin-induced cell death in the previous parts of this study, we wanted to further understand its involvement in ROS-mediated cell death. First analyses in wild-type (WT) and BAK-/- murine embryonic fibroblasts (MEFs) revealed that BAK was essential for Auranofin-induced cell death and that this cell death was caspase-independent in MEFs. Interestingly, BAK oxidation was induced upon treatment with Auranofin, but not upon stimulation with the apoptosis-inducing compound Etoposide. Expression of mutated BAK, with either one or both oxidation-sensitive cysteines mutated to oxidation-insensitive serines, revealed that mutating already one cysteine protected cells from Auranofin , but not Etoposide-induced cell death. Of note, mutation of the BAK BH3 domain rescued MEFs from both, Auranofin- and Etoposide-mediated cell death. The presence of cysteine residues also altered BAK interactions as observed by a mass spectrometric analysis of Auranofin-treated MEFs expressing either WT or cysteine-less BAK. We identified interactions of WT BAK with proteins involved in mitochondrial fission and vesicle transport upon Auranofin treatment. Of note, interaction with proteins involved in apoptosis, like BAX or BCL-XL, was not changed between WT and cysteine-less BAK. Our results demonstrate a critical role for BAK oxidation in Auranofin-induced cell death. Furthermore, we identified novel oxidation-dependent BAK interaction partners.
To conclude, this study highlights the potential of ROS-inducing treatments for ALL therapy and provides novel insights into the redox regulation of programmed cell death.
Aufgrund der starken Heterogenität und Komplexität der akuten myeloischen Leukämie ist diese bis heute nicht zufriedenstellend zu behandeln. Die bestmögliche Therapie wird mittlerweile zunehmend auf die Erkrankung des Einzelnen angepasst. Vermehrt gewinnen Tyrosinkinase-Inhibitoren in der Therapie an Bedeutung. Diese Inhibitoren hemmen Proteine auf zellulärer Ebene.
Bei etwa 30% der AML-Patienten lassen sich Mutationen des FLT3-Gens nachweisen. Das Gen kodiert für die fms like tyrosine kinase 3, eine Rezeptor-Tyrosinkinase an der Zelloberfläche von unreifen Blutzellen des Knochenmarks. Durch Mutationen des FLT3 Gens erhalten diese Zellen einen Proliferationsvorteil gegenüber den physiologischen Blutzellen.
Am häufigsten kommt es zu in frame-Insertionen des FLT3-Gens, vor allem im Bereich der juxtamembranen Domäne: sogenannte interne Tandemduplikationen (ITD). Weiterhin kommen zu einem geringeren Teil Punktmutationen einzelner Codons, zum Beispiel im Bereich des activation loops oder im Bereich des gatekeepers vor. Durch das Auftreten der Punktmutationen, die entweder bereits zum Zeitpunkt der Diagnose vorliegen oder erst während einer Therapie mit einem Tyrosinkinase-Inhibitor entstehen können, verändert sich das Bindungsverhalten vieler solcher gegen FLT3 gerichteten Inhibitoren. Durch Letzteres kann ein mögliches Therapieversagen beispielsweise während der Behandlung mit AC220 (Quizartinib) erklärt werden (Smith et al.).
In der vorliegenden Dissertationsschrift sind Unterschiede der Signalwege zwischen FLT3-ITD und FLT3-ITD mit der zusätzlichen gatekeeper-Punktmutation F691L herausgearbeitet. Dafür wurden die beiden FLT3-Mutationen in den Vektor pMy-IRES-GFP eingebracht und retroviral in Ba/F3-Zellen transduziert. Nach Überprüfung der Expression von FLT3 ITD und dem Wachstumsverhalten unter Zugabe von AC220 (Quizartinib), wurden verschiedene Signalkaskaden von FLT3 mittels Western Blot untersucht. Hierbei zeigten sich sowohl Unterschiede für die Expression von phosphoryliertem ERK als auch von phosphoryliertem STAT5.
Durch verschieden starke Expressionen der FLT3130kDa- und FLT3160kDA-Varianten wurde eine unterschiedliche Lokalisation von FLT3-ITD in Zellen mit und ohne die Mutation F691L postuliert. Allerdings ließ sich diese experimentell mittels Immunfluoreszenz nicht belegen, da die Methode für die verwendeten Suspensionszellen nicht ausreichend geeignet war.
In den durchgeführten Versuchen zum Wachstumsverhalten der Zellen bei der Verwendung von Kinaseinhibitoren konnte bei der Verwendung des SYK-Inhibitors R406 eine dosisabhängige Proliferationshemmung der FLT3-ITD-mutierten Ba/F3- und 32D-Zellen beobachtet werden. Die Hemmung von FLT3 durch R406 wurde in der Literatur bereits beschrieben (Braselmann et al.).
Die abschließenden Experimente der Massenspektrometrie mit SILAC Markierung lassen mit der Detektion von mehreren hundert signifikant regulierten phosphorylierten Proteinen in den beiden FLT3-ITD-exprimierenden Populationen auf die Aktivierung unterschiedlicher Signalwege schließen. Durch das Vergleichen einzelner Teilexperimente ergaben sich Proteine, deren Phosphorylierung mehrfach in die gleiche Richtung reguliert war. Für Zellen, die zusätzlich zur ITD-Mutation die Mutation F691L besaßen, konnten insgesamt sieben hoch-regulierte, phosphorylierte Proteine ermittelt werden, bei denen ein zellulärer Effekt durch die Phosphorylierung der entsprechenden Aminosäurereste in der Literatur beschrieben ist.
Das im Western Blot nachgewiesene, in Zellen mit der Mutation F691L stärker phosphorylierte STAT5 ist aller Voraussicht nach Ursache der nachgewiesenen verstärkten Phosphorylierung von RPS6 im Experiment der globalen Phosphorylierung. Die PIM-Kinasen als Substrate einer STAT5-induzierten Transkription phosphorylieren RPS6 an Serin 235. Dies führt seinerseits zu einer verstärkten Translation von mRNA weiterer Gene. Die genauen Zusammenhänge der hier ermittelten Unterschiede müssen jedoch weiter untersucht werden.
In Zukunft könnte zudem die Untersuchung der beiden Proteine SHP 1 oder HSP90 weitere Aufschlüsse über die unterschiedlichen Signalwege geben. Für beide Proteine wurden Phosphorylierungen detektiert, die in den untersuchten Zellen mit FLT3-ITD bzw. der zusätzlichen Punktmutation F691L unterschiedlich reguliert sind.
Even one century after Santiago Ramón y Cajal’s groundbreaking contribu- tions to neuroscience, one of the most fundamental questions in the field is still largely open, namely understanding how the shape of a dendrite is adapted to its specific biological function. A systematic investigation of this problem is challenging both technically and conceptually because neurons have diverse genetic, molecular, morphological, connectional and functional properties.
In the light of the preceding, dendritic arborisation (da) neurons of the Drosophila melanogaster larva PNS have proven to be an excellent model system for the study of such growth and patterning processes. Structure and function in these cell classes are intimately intertwined, as class type-specific dendritic arbour differentiation processes are required to satisfy a given phys- iological need. Also, there is a remarkable genetic toolkit that enables one to selectively and reproducibly label, image and manipulate each one of these sensory neuron classes. In this thesis, I address the aforementioned open problem by linking single-cell patterning, information processing and wiring optimisation in sensory da neurons to behaviour in Drosophila larva.
In particular, I study Class I ventral peripherical dendritic arborisation (c1vpda) neurons. These are a class of proprioceptive neurons that relay information on the position of the larva’s body back to the CNS during crawling behaviour to assure proper locomotion. Their stereotypical comb- like shaped dendritic branches spread along the body-wall, and they get noticeably deformed during crawling behaviour. The bending of the den- dritic branches is hypothesised to be a possible mechanism to transduce the mechanosensory inputs arising from cuticle folding. Interestingly, c1vpda neurons do not necessarily satisfy optimal wiring constraints since they are required to pattern into a specific shape to fulfil their function. Therefore, I considered the da system to study how the specific functional requirements may be combined with optimal wiring constraints during development.
Although the molecular machinery of dendrite patterning in c1vpda neurons is well studied, the precise elaboration of the comb-like shaped dendrites of these cells remains elusive. Moreover, even though a lot of work has been put into the description and quantification of growth processes of the nervous system, there are still few solid and standardised models of arbour staging and patterning. Importantly, the defining parameters that determine the dendrite elaboration program that in turn is responsible for creating the final arbour morphology are still unknown. As a result, unraveling possible universal stages of dendrite elaboration shared between different model systems and cell types is challenging.
Thus, in order to understand the development of the fine regulation of branch outgrowth that leads to the observed terminal arbour morphology in the mature cell, I collected in vivo, long-term, non-invasive high temporal res- olution time-lapse recordings of dendritic trees during the differentiation process in the embryo and its maturation phase in the larva. For further analysis, I developed new algorithms that quantified the structural changes in dendrite morphology in the time-lapse videos. My approach provides a framework to analyse such developmental data, or any dataset comprising continuous morphological dynamical processes in an unbiased way. Using these newly developed methods, I examined the development of a sample of c1vpda cells and identified five stages of differentiation in these data: initial stem polarization, extension, pruning, stabilization, and isometric stretching during larval stages.
The beginning of the growth process is marked by the polarisation of the main stem. Subsequently, during the extension phase, branches emerge interstitially from the existing main stem. Later, higher-order branches sprout from pre-existing lateral branches, increasing arbour complexity. This is followed by a pruning stage where developmental intermediate dendritic branches are removed. This step leads to a spatial rearrangement of the dendritic tree. The end of the pruning step is followed by a stabilisation period where arbour morphology remains virtually unaltered in the embryo. After hatching, c1vpda dendrites experience an isometric scaling, with their branching complexity and pattern being invariant across all larval stages.
After dissecting the c1vpda dendrites spatiotemporal differentiation process, I established a link between dendritic shape and behaviour. I measured intra- cellular Ca++ activity in the dendrite branches of l1 larvae during forward locomotion, while simultaneously recording branch deformation using a dual genetic line. I reported that post-embryonic c1vpda dendrites Ca++ responses increased in freely crawling larvae. Furthermore, I showed strong correlations between Ca++ signal and deformation of the comb-like dendritic ranches during body-wall contractions.
Then, using a geometrical model, I provided evidence that the pruning stage could reorganise the dendrite morphology to maximise mechanosensory re- sponses during body wall contraction. I showed that the angle orientation of each side branch correlates with the bending curvature and thus with the me- chanical displacement of the cell membrane during locomotion. During the pruning phase, I observed a preferential reduction of less efficient branches with low bending curvature, influencing the mechanisms of dendritic sig- nal integration of c1vpda sensory neurons. I proceeded to quantify branch dynamics at single tip resolution during pruning, providing evidence that a simple random pruning mechanism is sufficient to remodel the tree structure compatible with the observed way.
I used these time-lapse data to constrain a new computational noisy growth model with random pruning based on optimal wiring principles. This model is able to generate highly realistic synthetic c1vpda morphologies. The model furthermore requires few parameters to generate highly accurate temporal development trajectories and morphologies at single-cell level. Utilising this data and model enabled me to investigate upon the hypothesis that a noisy dendrite growth and random pruning mechanism synergise to achieve den- dritic trees efficient in terms of both wiring and function. My findings show how single neurons can create functionally specialised dendrites while min- imising wiring costs, elucidating how general principles of self-organisation may be involved in the generation of these structures.
Hintergrund. Die Achtung der individuellen Autonomie ist eines von vier medizinethischen Prinzipien, das im Kontext von Medizin und Forschung insbesondere in Bezug auf die informierte Einwilligung einer Person thematisiert wird. Menschen mit Demenz können aufgrund innerer oder äußerer Faktoren in ihrer Einwilligungsfähigkeit beeinträchtigt sein, was zu einer Einschränkung ihres Rechts auf Selbstbestimmung führen kann. Im diesbezüglichen Spannungsfeld zwischen Fürsorge und Autonomie soll Entscheidungsassistenz zur Ermöglichung selbstbestimmter Entscheidungen beitragen.
Zielrichtung der Arbeit. Ziel der vorliegenden Dissertation ist die Definition, Implementierung und Evaluation von Entscheidungsassistenzmaßnahmen für Menschen mit Demenz, um deren Autonomie in Entscheidungsprozessen zu unterstützen. Drei Teilprojekte umfassen die Ermittlung des internationalen Forschungsstands zu Entscheidungsassistenz bei Demenz, die Definition und Pilotierung von Unterstützungstools in der Praxis und die Analyse des individuellen Erlebens der vereinfachten Aufklärungsgespräche durch Menschen mit Demenz.
Methode. Im ersten Teilprojekt wurde eine am PRISMA-Standard orientierte systematische Literaturrecherche in Medline und PsycINFO durchgeführt. Die extrahierten relevanten Informationen wurden inhaltlich systematisiert. Aufbauend auf diesen Ergebnissen wurden im zweiten Teilprojekt konkrete Unterstützungstools definiert und in reale Aufklärungsgespräche (Lumbalpunktion) implementiert. Die Tools wurden in der Pilotierung in der Praxis sowie in einem iterativen Diskussionsprozess mit Experten weiterentwickelt. Im dritten Teilprojekt wurde das individuelle Erleben der Teilnehmer der vereinfachten Aufklärungsgespräche mittels problemzentrierter Interviews untersucht und die Daten einer qualitativen Inhaltsanalyse unterzogen.
Ergebnisse. Die Datenbankrecherche ergab initial 2348 Treffer. Nach Screenings der Titel, Abstracts und Volltexte konnten 11 Artikel eingeschlossen werden. Vier der eingeschlossenen Studien sind Interventionsstudien, die übrigen sieben qualitative Interviewstudien. Die identifizierten Unterstützungsmaßnahmen wurden zunächst den beiden Kategorien Interventionen und Strategien und anschließend unter Zuhilfenahme des Konzepts des Contextual Consents fünf komplexitätssteigernden Dimensionen einer Entscheidungssituation zugeordnet (individuelle, soziale, medizinische, informationelle und Folgendimension). Darauf aufbauend wurden im zweiten Teilprojekt acht Entscheidungsassistenzmaßnahmen abgeleitet: (1) Gesprächsstruktur, (2) Elaborierte klare Sprache, (3) Ambiente / Raumgestaltung, (4) Stichwortlisten, (5) Prioritätenkarten, (6) Visualisierung, (7) Vereinfachte schriftliche Einverständniserklärung sowie (8) Personenzentrierte Haltung des Entscheidungsassistenten (1-7: Tools, 8: Grundeinstellung). Die Tools zielen überwiegend auf eine Komplexitätsreduktion in der informationellen Dimension unter Berücksichtigung der fähigkeitsbezogenen und der bedürfnisbezogenen individuellen Dimension ab. Durch Anpassungen der Informationsdarbietung oder der kommunikativen Interaktion im Gespräch dienen sie mehrheitlich der Förderung des (Informations-) Verständnisses. Die Analyse der qualitativen Daten im dritten Teilprojekt zeigt, dass die Erfahrung der vereinfachten Aufklärungsgespräche durch drei übergreifende Themen gekennzeichnet ist. Die Kategorie Formalität versus Informationsgewinn illustriert die individuelle Bedeutung des Aufklärungsgesprächs für die Teilnehmer und deren Bewertung des Prozesses der informierten Einwilligung. Die Kategorie Wahrnehmung der Unterstützung skizziert die Bewertungen der angewandten Unterstützungstools durch die Teilnehmer. Die Kategorie Der Wahrheit ins Auge sehen müssen stellt dar, dass die erlebte Situation des vereinfachten Aufklärungsgesprächs wesentlich durch die Verdachtsdiagnose Demenz bestimmt ist, die im Rahmen aller Aufklärungsgespräche besprochen wurde.
Fazit. Bislang gibt es wenig empirische Forschung zu Entscheidungsassistenz für Menschen mit Demenz und Unterstützungsmaßnahmen werden überwiegend unsystematisch entwickelt und angewendet. Die Wirksamkeit einzelner Unterstützungsmaßnahmen kann aufgrund fehlender Interventionsstudien selten beurteilt werden. Unterstützungsmaßnahmen zielen überwiegend auf eine Komplexitätsreduktion in der Informationsdarbietung und im kommunikativen Interaktionsprozess ab, wobei sie kognitive Beeinträchtigungen und Interaktions-/ Entscheidungsbedürfnisse von Menschen mit Demenz berücksichtigen. Die definierten Tools können als erste konkret handhabbare Werkzeuge verstanden werden, die das strukturierte Leisten von Entscheidungsassistenz für Menschen mit Demenz erleichtern sollen. Sie sind übertragbar auf verschiedene Entscheidungssituationen. Eine Bewertung der Wirksamkeit der definierten Tools sollte in weiteren Entscheidungssituationen und mit größeren Stichproben weiteruntersucht werden. Die Ergebnisse der Evaluation liefern jedoch erste Hinweise darauf, dass einige Teilnehmer sich von einzelnen Tools unterstützt gefühlt haben und die anvisierte Komplexitätsreduktion in der informationellen Dimension in einigen Fällen erfolgreich war. Eine wesentliche Komplexitätssteigerung in der untersuchten Entscheidungssituation entstand durch die negative Emotionen auslösende Vermittlung einer potentiellen Demenzdiagnose (Folgendimension). Dieses Ergebnis impliziert, dass die definierte „verständnisfördernde Toolbox“ um Unterstützungsmaßnahmen zur emotionalen Entlastung von Menschen mit Demenz erweitert werden muss, da davon ausgegangen werden kann, dass vielfältige Entscheidungssituationen für Menschen mit Demenz emotional hoch belastend sind.
Hintergrund
Obwohl Feedback ein wichtiges und gut untersuchtes Element der medizinischen Ausbildung darstellt, wird es trotz eines großen Bedarfs der Studierenden sowohl im Unterricht als auch in Prüfungssituationen nur selten angewendet. Die Frankfurter Medizinstudierenden beklagen besonders, dass sie zu ihren Objective Structured Clinical Examinations (OSCEs) als Abschlussprüfung im Fach Chirurgie bisher kein detailliertes Feedback erhalten. Auch die Prüfenden beklagen häufig, dass sie die Studierenden weder für herausragende Leistungen loben noch über auftretende Fehler informieren können.
Ziel dieser Arbeit ist deshalb die Erstellung und Implementierung eines strukturierten schriftlichen Feedbacks in eine bestehende OSCE-Prüfung im Fach Chirurgie, das an den Bedürfnissen sowohl der Studierenden als auch der Prüfenden orientiert ist.
Material und Methoden
Das Studiendesign war prospektiv. Im ersten Schritt wurde eine Befragung erfahrener OSCE-Prüfender durchgeführt, um zu erheben, welches Feedback sie gerne an Studierende weitergeben würden. Basierend hierauf wurde ein erster Feedbackbogen erstellt. Dieser umfasste neben vorformulierten Aussagen auch die Möglichkeit Freitextkommentare zu geben und wurde von den Prüfenden für jeden Studierenden in der Wechselzeit zwischen den OSCE-Stationen ausgefüllt. Die Feedbackbögen wurden anschließend eingescannt und per E- Mail an die Studierenden geschickt. Im Anschluss hieran erfolgte eine webbasierte Befragung der Studierenden und der OSCE-Prüfenden, sowie eine tiefergehende Befragung der Studierenden in Form von Fokusgruppen- Interviews.
Basierend auf den Ergebnissen der Umfragen und der Fokusgruppen wurden die Feedbackbögen nochmals grundlegend überarbeitet und im folgenden OSCE erneut angewendet. Die Zufriedenheit der Prüfenden und Studierenden wurde analog zur ersten Befragung erhoben.
Ergebnisse
Insgesamt nahmen 351 Studierende und 51 Prüfende in beiden OSCEs an der Studie teil. In der abschließenden Online-Evaluation gaben 87,5% der Studierenden und 91,6% der Prüfenden an, dass sie zustimmen oder eher zustimmen, dass das schriftliche Feedback in zukünftigen OSCE-Prüfungen weiterhin angewendet werden soll. Mehr als 50% der Studierenden gaben jedoch an, dass das Feedback noch nicht konkret genug sei.
Mehr als ein Viertel der Prüfenden gab an, dass das Ausfüllen der Feedbackbögen zeitlich herausfordernd sei. In allen Fokusgruppen wurde das schriftliche Feedback durch die Studierenden befürwortet.
Schlussfolgerung
Die Implementierung eines strukturierten schriftlichen Feedbacks in einen OSCE ist problemlos möglich. Das schriftliche Feedback wird sowohl von den Prüfenden als auch von den Studierenden als nützlich empfunden.
In heavy-ion collisions, the quark-gluon plasma is produced far from equilibrium. This regime is currently inaccessible by direct quantum chromodynamics (QCD) computations. In a holographic context, we propose a general method to characterize transport properties based on well-defined two-point functions. We calculate shear transport and entropy far from equilibrium, defining a time-dependent ratio of shear viscosity to entropy density, . Large deviations from its near-equilibrium value , up to a factor of 2.5, are found for realistic situations at the Large Hadron Collider. We predict the far-from-equilibrium time-dependence of to substantially affect the evolution of the QCD plasma and to impact the extraction of QCD properties from flow coefficients in heavy-ion collision data.
Pokémon Go is one of the most successful mobile games of all time. Millions played and still play this mobile augmented reality (AR) application, although severe privacy issues are pervasive in the app due to its use of several sensors such as location data and camera. In general, individuals regularly use online services and mobile apps although they might know that the use is associated with high privacy risks. This seemingly contradictory behavior of users is analyzed from a variety of different perspectives in the information systems domain. One of these perspectives evaluates privacy-related decision making processes based on concepts from behavioral economics. We follow this line of work by empirically testing one exemplary extraneous factor within the “enhanced APCO model” (antecedents–privacy concerns–outcome). Specific empirical tests on such biases are rare in the literature which is why we propose and empirically analyze the extraneous influence of a positivity bias. In our case, we hypothesize that the bias is induced by childhood brand nostalgia towards the Pokémon franchise. We analyze our proposition in the context of an online survey with 418 active players of the game. Our results indicate that childhood brand nostalgia influences the privacy calculus by exerting a large effect on the benefits within the trade-off and, therefore, causing a higher use frequency. Our work shows two important implications. First, the behavioral economics perspective on privacy provides additional insights relative to previous research. However, the effects of several other biases and heuristics have to be tested in future work. Second, relying on nostalgia represents an important, but also double-edged, instrument for practitioners to market new services and applications.
Cell-free expression represents an attractive method to produce large quantities of selectively labeled protein for NMR applications. Here, cell-free expression was used to label specific regions of the growth hormone secretagogue receptor (GHSR) with NMR-active isotopes. The GHSR is a member of the class A family of G protein-coupled receptors. A cell-free expression system was established to produce the GHSR in the precipitated form. The solubilized receptor was refolded in vitro and reconstituted into DMPC lipid membranes. Methionines, arginines, and histidines were chosen for 13C-labeling as they are representative for the transmembrane domains, the loops and flanking regions of the transmembrane α-helices, and the C-terminus of the receptor, respectively. The dynamics of the isotopically labeled residues was characterized by solid-state NMR measuring motionally averaged 1H-13C dipolar couplings, which were converted into molecular order parameters. Separated local field DIPSHIFT experiments under magic-angle spinning conditions using either varying cross polarization contact times or direct excitation provided order parameters for these residues showing that the C-terminus was the segment with the highest motional amplitude. The loop regions and helix ends as well as the transmembrane regions of the GHSR represent relatively rigid segments in the overall very flexible receptor molecule. Although no site resolution could be achieved in the experiments, the previously reported highly dynamic character of the receptor concluded from uniformly 13C labeled receptor samples could be further specified by this segmental labeling approach, leading to a more diversified understanding. of the receptor dynamics under equilibrium conditions
Inflammation is a highly regulated biological response of the immune system that is triggered by assaulting pathogens or endogenous alarmins. It is now well established that some soluble extracellular matrix constituents, such as small leucine-rich proteoglycans (SLRPs), can act as danger signals and trigger aseptic inflammation by interacting with innate immune receptors. SLRP inflammatory signaling cascade goes far beyond its canonical function. By choosing specific innate immune receptors, coreceptors, and adaptor molecules, SLRPs promote a switch between pro- and anti-inflammatory signaling, thereby determining disease resolution or chronification. Moreover, by orchestrating signaling through various receptors, SLRPs fine-tune inflammation and, despite their structural homology, regulate inflammatory processes in a molecule-specific manner. Hence, the overarching theme of this review is to highlight the molecular and functional specificity of biglycan-, decorin-, lumican-, and fibromodulin-mediated signaling in inflammatory and autoimmune diseases.
The purpose of this study was to identify distinctive mental health profiles for industrial psychologists based on the Mental Health Continuum. Further, it aimed to determine how these profiles differ with respect to work-role fit, meaningfulness and work engagement. It also aimed to investigate whether industrial psychologists within managerial or specialist differ in respect of different types of mental health. An online cross-sectional survey design was employed to draw a census sample (n = 274) from all South African industrial psychologists. A biographical questionnaire, the Work-Role Fit Scale, the Psychological Meaningfulness Scale, the Work Engagement Scale, and the Mental Health Continuum–Short Form were administered. Descriptive statistics, correlations, latent profile analysis, MANOVAs and ANOVAs were computed. Three mental health profiles for industrial psychologists were identified: languishing, moderately mentally healthy and flourishing. Significant differences between the three mental health profiles and experiences of meaningful work-role fit and work engagement were found, but not between experiences of managerial roles. The results show that individuals with different mental health profiles, experience work and its related outcomes, differently. Therefore, in order to enhance meaningful work-role fit and work engagement of industrial psychologists, a one-size-fits-all model may not be appropriate.
The transcription factor ∆Np63 is a master regulator of epithelial cell identity and essential for the survival of squamous cell carcinoma (SCC) of lung, head and neck, oesophagus, cervix and skin. Here, we report that the deubiquitylase USP28 stabilizes ∆Np63 and maintains elevated ∆NP63 levels in SCC by counteracting its proteasome‐mediated degradation. Impaired USP28 activity, either genetically or pharmacologically, abrogates the transcriptional identity and suppresses growth and survival of human SCC cells. CRISPR/Cas9‐engineered in vivo mouse models establish that endogenous USP28 is strictly required for both induction and maintenance of lung SCC. Our data strongly suggest that targeting ∆Np63 abundance via inhibition of USP28 is a promising strategy for the treatment of SCC tumours.
Sphingosine‐1‐phosphate (S1P) regulates pathophysiological processes, including liver regeneration, vascular tone control, and immune response. In patients with liver cirrhosis, acute deterioration of liver function is associated with high mortality rates. The present study investigated whether serum S1P concentrations are associated with disease severity in patients with chronic liver disease from compensated cirrhosis (CC), acute decompensation (AD), or acute‐on‐chronic liver failure (ACLF). From August 2013 to October 2017, patients who were admitted to the University Hospital Frankfurt with CC, AD, or ACLF were enrolled in our cirrhosis cohort study. Tandem mass spectrometry was performed on serum samples of 127 patients to assess S1P concentration. Our study comprised 19 patients with CC, 55 with AD, and 51 with ACLF, aged 29 to 76 years. We observed a significant decrease of S1P according to advanced liver injury from CC and AD up to ACLF (P < 0.001). S1P levels further decreased with progression to ACLF grade 3 (P < 0.05), and S1P highly inversely correlated with the Model for End‐Stage Liver Disease score (r = −0.508; P < 0.001). In multivariate analysis, S1P remained an independent predictor of 7‐day mortality with high diagnostic accuracy (area under the curve, 0.874; P < 0.001). Conclusion: In patients with chronic liver disease, serum S1P levels dramatically decreased with advanced stages of liver disease and were predictive of early mortality. Because S1P is a potent regulator of endothelial integrity and immune response, low S1P levels may significantly influence progressive multiorgan failure. Our data justify further elucidation of the diagnostic and therapeutic role of S1P in ACLF.
Analyse der Genauigkeit des neurochirurgischen Operationsroboters Robotic Surgery Assistant (ROSA)
(2020)
In der vorliegenden Arbeit sollte untersucht werden, ob der Roboter ROSA bei der Durchführung von intrakraniellen Biopsien oder Elektrodenimplantationen eine Alternative zur klassischen, rahmenbasierten Stereotaxie darstellt. Dazu sollte die mechanische und die Anwendungsgenauigkeit des Systems ermittelt werden. Zur Bestimmung der mechanischen Genauigkeit wurde eine experimentelle Phantomstudie durchgeführt. Hier wurden durch den Roboter wiederholt zehn Trajektorien an einem Stereotaxiephantom angefahren. Der Abstand der robotischen Nadel zum Zielpunkt im Phantom wurde anhand von Röntgenbildern bestimmt. Die Wiederholung des Versuchsaufbaus unter Variation der Planungsbildgebung erlaubte den Vergleich verschiedener Schichtdicken sowie zwischen low-dose und normal-dose Verfahren. Die Anwendungsgenauigkeit sollte durch die Analyse operativer Ergebnisse der ROSA erfasst werden. Dazu wurde anhand von postoperativen Bildern die Genauigkeit anhand des Abstands zwischen geplanter und tatsächlicher Lage von Stereoelektroenzephalographie-Elektroden ermittelt. Es wurden verschiedene Referenzierungstechniken, die der Orientierung des Roboters dienen und bei denen eine präoperative Planungsbildgebung (CT oder MRT) mit einem Abbild des OP-Gebietes (durch Oberflächenerkennung oder durch einen Stereotaxierahmen) referenziert wird, verglichen, nämlich CT-Laser; CT-Leksell-Rahmen und MRT-Laser. Die Ergebnisse wurden einer statistischen Analyse unterzogen. Dabei zeigte sich, dass der ROSA-Roboter eine sehr hohe mechanische Genauigkeit im Submillimeterbereich erreicht. Genauigkeitseinbußen bei einer größeren Schichtdicke der zur Planung verwendeten Computertomographie sind messbar, aber gering. Ein signifikanter Einfluss bei der Verwendung eines low-dose-Protokolls konnte nicht festgestellt werden. Dennoch zeigte sich, dass der entscheidende Teil der Ungenauigkeiten in der klinischen Anwendung entsteht und dabei insbesondere durch die Referenzierungstechnik bestimmt wird. Referenzierungen, die auf einer Computertomographie basierten, erwiesen sich als zufriedenstellend genau und als konkurrenzfähig zur konventionellen Methode. Der Unterschied zwischen dem rahmenbasierten und dem auf Oberflächenerkennung basierenden Verfahren war dabei so gering, dass letzteres sich angesichts seiner Vorteile in der Anwendung als besonders günstiges Verfahren hervortut. Im Gegensatz dazu stand das MRT-Laser-Verfahren, welches bei relativ hohen Abweichungen nur eingeschränkt anwendbar scheint und sich damit eher für Anwendungsbereiche mit geringeren Genauigkeitsanforderungen eignet, wie bspw. Biopsien. Weiterhin kann der Verlauf der Trajektorie an den höheren Sicherheitsabstand angepassten werden. Bei der Einordnung der ermittelten Genauigkeiten ist zu beachten, dass es viele weitere, von der Referenzierungs- und Bildgebungsmethode unabhängige Einflussfaktoren gibt. In dieser Arbeit war der Einfluss der erfassten externen Paramter zwar limitiert, bei anderen Autoren zeigte sich jedoch ein signifikanter Effekt. Dennoch deckt sich die Gesamtgenauigkeit mit den Ergebnissen anderer Arbeiten.
In Zusammenschau der Ergebnisse weist die vom ROSA-Assistenzsystem assistierte Stereotaxie eine verbesserte Prozessqualität auf, unter anderem durch die erhebliche Zeitersparnis, ggf. der Wegfall des Transports des narkotisierten Patienten, die Adaptionsmöglichkeiten der Prozessteilschritte an den Patienten, sowie eine hohe Nutzerfreundlichkeit. Entscheidend ist jedoch, dass es sich um ein sehr sicheres Verfahren handelt: Durch die hohe Genauigkeit wird das Operationsrisiko minimiert, gleichzeitig erlauben Laser-gestützte Registrierungsverfahren eine Reduktion der Strahlenexposition. Zur Konsolidierung der in dieser Arbeit gewonnenen Erkenntnisse sind weitere klinische Daten notwendig.
Computational estimation is an important skill in everyday life as well as in educational contexts. In the last decades, research has found that children use several strategies in computational estimation and that children’s strategy use depends on different parameters. Still, little is known about the underlying cognitive processes. In the present work, we addressed this issue by investigating (1) the influence of individual differences in children’s executive functions on their strategy use and (2) the influence of varying specific task and problem characteristics that are discussed to involve different cognitive processes.
In four studies, we asked third and fourth graders to solve computational estimation tasks by rounding the summands. Study 1 addressed the influence of working memory updating. The study found that efficient updating contributed to children’s strategy use and moderated relations with problem characteristics. A deliberate feature of Study 1 was to restrict participants’ strategy choice to the rounding-down and rounding-up strategies. Study 2 in turn investigated children’s strategy use when mixed-rounding was allowed. Results indicated that children did not consider unit digits of both operands jointly. Also, no influence of executive functions could be found. Consequently, in Study 3, children’s strategy selection when they could choose between three versus only two strategies was contrasted and the role of working memory updating was investigated. Indeed, children chose the best available strategy more often when three strategies were available. Importantly, relative strategy selection performance differed with children’s updating capacities.
Finally, Study 4 addressed another task variation that is important in everyday life and educational contexts. That is, presentation duration and modality were varied. Data showed that a permanent, written format was most beneficial for children’s strategy use and that children’s updating moderated presentation effects.
In sum, the results of the present work could shed some light onto cognitive processes in children’s strategy use in computational estimation. Specifically working memory updating
seems to contribute to third and fourth graders strategy use. Interpreting interactions with different task variations, updating most likely influences associative processes, long term memory consolidation and retrieval as well as encoding and calculation processes.
Astrozyten erfüllen verschiedene Funktionen im Zentralnervensystem, welche sich in die Bereiche Entwicklung, Durchblutung, Metabolismus, Strukturerhalt und Gliotransmission unterteilen lassen. Astrozyten sind an der synaptischen Informationsverarbeitung beteiligt und wirken an zahlreichen höheren Hirnfunktionen mit. Durch Regulation der synaptischen Transmission und Plastizität sind Astrozyten am Lernverhalten und Erinnerungsvermögen, sowie an der Verhaltensmodulation und Verarbeitung emotionaler Reize involviert. Im Zuge dieser zahlreichen Funktionen können Astrozyten auf externe Stimuli mit der gezielten Freisetzung von Gliotransmittern reagieren.
In kultivierten Astrozyten konnte Keil143 das TGN, bestehend aus Zisternen und Vesikeln, darstellen und mit anti-Rab6 identifizieren. Rab6 mit seinen Subtypen A und B gehört der Superfamilie der monomeren Ras-GTPasen an, die den intrazellulären Membran- und Vesikelverkehr regulieren. Rab6 spielt in HeLa-Zellen beim Transport vesikulärer Organellen vom TGN zur Zellmembran eine wichtige Rolle. Assoziationsanalysen von Rab6A mit vesikulären Glutamattransportern, Serinracemase und Markern der regulierten Exozytose in kultivierten Astrozyten143 deuten darauf hin, dass dieses Rab6A-Organellsystem die ultrastrukturelle Grundlage für die Freisetzung von Gliotransmittern wie D-Serin und Glutamat bildet.
Zur Untersuchung, ob Rab6A tatsächlich ein System der Glia-Neuron-Kommunikation im Gehirn darstellt, war es zunächst unabdingbar das Vorkommen von Rab6A in situ zu untersuchen. Die durchgeführten immunzytochemischen Färbungen an Hirnschnitten der Maus zeigen das gleichmäßige und ubiquitäre Vorkommen von Rab6A in allen untersuchten Hirnregionen. Durch verblindet durchgeführte Kolokalisationsanalysen von Rab6A mit den etablierten astrozytären Markern Glutaminsynthetase (GS), Glial fibrillary acidic protein (GFAP), Aldh1L1 und Sox9 konnte eine Lokalisation von Rab6A in allen Astrozyten gezeigt werden. Weitere Analysen schließen die Lokalisation von Rab6A in Mikroglia (Iba1), NG2-Zellen (NG2) und Oligodendrozyten (CNPase) aus. Die Astrozyten unterscheiden sich in Größe und subzellulärem Verteilungsmuster der Rab6A+ Strukturen, wonach eine Kategorisierung in vier Typen vorgenommen wurde. Anhand der Einteilung kann vermutet werden, dass größere Rab6A+ TGN-Zisternen bis weit in die Zellperipherie transportiert werden und kleine Rab6A+ Vesikel erst dort ausknospen und der Exozytose zugeführt werden. Zur Frage der möglichen astrozytären Subpopulationen konnte gezeigt werden, dass alle untersuchten Astrozyten GS+, Aldh1L1+, Sox9+ und Rab6A+ sind, jedoch nicht GFAP+.
Um die prinzipielle Übertragbarkeit der gewonnenen Befunde auf den Menschen zu überprüfen, wurde reseziertes Cortex-Gewebe von drei Patienten mit unterschiedlicher pathologischer Genese untersucht. Rab6A ist im massiven Ausmaß in humanen Astrozyten lokalisiert, was nahelegt, dass die zuvor an der Maus gewonnenen Ergebnisse auf den Menschen übertragbar sind.
Die mögliche funktionelle Bedeutung von astrozytärem Rab6A im Gehirn wurde an HFS-Schnitten untersucht. Die Untersuchung zeigt einen signifikanten Anstieg der Rab6A+ Intensität in der gesamten Molekularschicht der Fascia dentata der stimulierten im Vergleich zur unstimulierten Seite. Da die HFS ein etabliertes LTP-Modell darstellt, könnte es infolge dieser zu einer strukturellen, intrazellulären Veränderung der Astrozyten mit erhöhter Freisetzung von D-Serin oder Glutamat aus Rab6A+ Vesikeln kommen, was das Lernverhalten beeinflussen könnte. Die dargestellten Ergebnisse legen eine Auswirkung der HFS auf Rab6A nahe.
Zur Bestätigung der immunzytochemischen Untersuchungen wurde die mRNA-Expression von Rab6A in Astrozyten bereits publizierter Transkriptomanalysen untersucht. Die in den Publikationen verwendeten Genom-Chips treffen allenfalls indirekt eine Aussage zu Rab6A, da Rab6 allgemein und nur Rab6B spezifisch untersucht wurde, jedoch keine spezifische Rab6A Sonde erwähnt wird.
Zusammenfassend kann Rab6A als spezifisches und selektiv in Astrozyten vorkommendes Protein dargestellt und als neuer astrozytärer Marker etabliert werden, der auch Astrozyten des humanen Gewebes markiert. Durch die gewonnenen Befunde kann in nachfolgenden Studien die mögliche Bedeutung von Rab6A in neuropathologischen und neurophysiologischen Prozessen untersucht werden.
Understanding the hadron spectrum is one of the primary goals of non-perturbative QCD. Many predictions have experimentally been confirmed, others still remain under experimental investigation. Of particular interest is how gluonic excitations give rise to states with constituent glue. One class of such states are hybrid mesons that are predicted by theoretical models and Lattice QCD calculations. Searching for and understanding the nature of these states is a primary physics goal of the GlueX experiment at the CEBAF accelerator at Jefferson Lab. A search for a JPC = 1−− hybrid meson candidate, the Y(2175), in φ(1020)π+π+ and φ(1020)f0(980) channels in photoproduction on a proton target has been conducted. A first measurement of non-resonant φ(1020)π+π+ and φ(1020)f0(980) total cross sections in photoproduction has been performed. An upper limit on the resonance production cross section for the Y (2175) → φ(1020)π+π+ and Y (2175) → φ(1020)f0(980) channels are estimated. Since the analysis essentially depends on the quality of the charged kaon identification, also an optimization of particle identification through an improvement of the energy loss estimation in the central drift chamber by a truncated mean method has been investigated.
Im hymnologischen Bereich sind die Entstehung und jahrhundertelange Tradierung deutscher evangelischer Kirchenlieder von großer Bedeutung. Sie übten in zahlreichen Ländern großen Einfluss aus. Im 19. Jahrhundert beispielsweise wurden sie in das Englische übersetzt und in Ländern dieses Sprachraums gesungen. Bei der Missionierung Koreas wurden westliche – darunter auch einige deutsche – Kirchenlieder eingeführt. Es fällt aber auf, dass im Übertragungsprozess inhaltliche und sprachliche Unterschiede zwischen deutschen und koreanischen Fassungungen auftreten konnten. Auf dieses Geschehen hat die Verfasserin der vorliegenden Studie bei ihrer Tätigkeit als Kirchenmusikerin in Deutschland das Augenmerk gerichtet und es zum Ausgangspunkt ihrer Dissertation gewählt.
Ende des 19. Jahrhunderts wurde Korea von anderen Ländern gezwungen, sich zu öffnen. Daraufhin kamen viele Ausländer – unter ihnen auch christliche Missionare – ins Land, die je eine eigene Gesangbuchliteratur mitbrachten. Insbesondere die amerikanische Mission fasste Fuß. Das erste koreanische Gesangbuch Chanmiga wurde im Jahr 1892 veröffentlicht; ihm folgten weitere Ausgaben. In der ersten Hälfte des 20. Jahrhunderts waren amerikanische Missionare Mitherausgeber dieser Gesangbücher. Folgerichtig dominierte westliches Liedgut.
Die vorliegende Arbeit untersucht jene deutschen Kirchenlieder, die vor 1945 in das Koreanische Gesangbuch aufgenommen wurden. Sie fragt danach, auf welche Weise sie übernommen wurden und sich Änderungen bei ihrer Übermittlung vollzogen haben. Methodisch werden Quellen miteinander verglichen, die zum Zeitpunkt der Aufnahme relevant waren. Dank der älteren deutschen, englischen und amerikanischen Gesangbücher, die online und in deutschen Bibliotheken (Online-Archive) freigeschaltet sowie im Gesangbucharchiv Mainz vorhanden sind, ist diese umfangreiche Forschung möglich geworden.
Die Bedeutung des Singens ist für die koreanische Christenheit während der Annexion durch Japan (1910-1945) groß gewesen. Sie sang als Unabhängigkeitsbewegung Kirchenlieder, unter denen besonders Martin Luthers Choral Ein feste Burg ist unser Gott unverzichtbar wurde. Aussagen zeitgenössischer Christen belegen seine damalige Beliebtheit. Ein Grund dafür liegt darin, dass in ihm zahlreiche Analogien zur Situation der unterdrückten Koreaner erkennbar waren. Das Lied vermittelte ihnen Trost, Mut und einen festen Gottesglauben. Seine besondere Bedeutung erkannte auch das japanische Regime und verbot es während der gesamten Besatzungszeit.
Auch nach 1945 wurden deutsche Kirchenlieder in koreanische Gesangbücher aufgenommen. Ihre Anzahl sank jedoch gegen Ende des 20. Jahrhunderts; das aktuelle Gesangbuch, 21st Century Hymnal, von 2006 enthält nur noch 21. Es ist schließlich festzuhalten, dass Ein feste Burg nicht nur im Gottesdienst, sondern auch im Theater zu hören ist – paradigmatisch in der Oper Son Yang Won, eine Komposition des Kirchenmusikers Chae Hoon Park (*1922) aus dem Jahr 2011. Die Oper trägt den Namen des Märtyrers Yang Won Son (1902-1950) und thematisiert geschichtliche Ereignisse von nationaler Bedeutung: die Problematik der Anarchie, beginnend mit der Landesteilung durch die Sowjetunion und USA in zwei Besatzungszonen 1945 sowie die Yeosu-Sucheon-Rebellion von 1948, organisiert von wenigen kommunistischen Soldaten gegen die südkoreanische Regierung. Die vorliegende Studie untersucht, welche Bedeutung das Lied Ein feste Burg in der Oper einnimmt und wie Chae Hoon Park es bearbeitet hat.
Die Dissertation beschränkt ihre hymnologische Forschung nicht auf die Übernahme und Rezeption deutscher Kirchenlieder in Korea; sie blickt umgekehrt auch auf die Rezeption koreanischer Gesänge in Deutschland. Durch Begegnungen von deutschen mit koreanischen Christen entstanden bzw. entstehen neue Gesänge und Kompositionen und werden durch ökumenische Gottesdienste und Veranstaltungen verbreitet. Die ökumenische Bewegung bewirkte nach dem Zweiten Weltkrieg Änderungen im Liedrepertoire. Gesänge, nicht nur aus England, Europa und Nordamerika, sondern auch aus Afrika, Asien und Südamerika, wurden überall aufgenommen und gesungen. Die aktuellen deutschen und koreanischen Gesangbuchinhalte belegen dies.
Die Ausführungen der Studie halten fest, dass religiöse Bewegungen – Missions- und ökumenische Bewegung – bei der Übermittlung althergebrachter und der Entstehung neuer Lieder eine große Rolle spielten. Dies ist anhand der Entwicklung des Koreanischen Gesangbuchs erkennbar. Früher wurden westliche Kirchenlieder von amerikanischen Missionaren nach Korea transferiert; die einheimischen Christen vernachlässigten wiederum ihre eigene Kultur und Musik. Deshalb dominierte für geraume Zeit westlich geprägtes Liedgut. Die Koreanisierung der Kirchenlieder bzw. Gesangbücher wird nun seit einigen Jahrzehnten forciert. Die wachsende kirchenmusikalische Qualifikation koreanischer Musiker, das zunehmend selbstbewusst werdende einheimische Christentum und die ökumenische Öffnung der Kirchen leisten hier wertvolle Beiträge.
This paper describes the interplay of lexical and grammatical aspect with other grammatical phenomena in the interpretation of the aspectual suffix ‑ile (which we analyse as Perfective) in isiNdebele, a Nguni Bantu language spoken in South Africa. Crucial other phenomena include constituency-related factors such as the conjoint-disjoint distinction and (related) penultimate lengthening, along with morphophonological conditions that trigger different forms of ‑ile. These factors appear to interact differently in isiNdebele than they do in closely related Zulu, suggesting two different paths of grammaticalization, which we argue can change the interpretation of markers of grammatical aspect as they interact with lexical aspectual classes.
Movies are brilliant choices to be subjects of discourse analysis since they bear resemblance to real-life phenomena. Lion of The Desert is one of the movies that actualizes the use of the English language as the dialogue and presents Islamic historical values as its content. Among a myriad of sub-disciplines of discourse analysis, this paper attempts to investigate speech act phenomena in the utterances of Omar Mukhtar, the main character of the movie. The discourse analysis is conducted on his utterances in order to extract the types of speech acts he employs. Primary data sources include the movie video file and its script. We execute several procedural steps of extracting the data, commencing with watching the movie while reading its script; re-watching it to identify the aspects like voice, intonation, and mimics; interpreting, and classifying the types of speech acts in accordance with the classification procedure of John R. Searle’s speech act theory. The findings revealed four types of speech acts, namely, representative, directive, commissive, and expressive, being identified and classified in Mukhtar’s utterances. The most frequently used type of speech act was representative, which is performed in 56 utterances, followed by a directive act which appears in 53 utterances. Commissive and expressive speech acts emerge in 9 and 7 utterances respectively.
Different experimental multiple trauma models induce comparable inflammation and organ injury
(2020)
Multiple injuries appear to be a decisive factor for experimental polytrauma. Therefore, our aim was to compare the inflammatory response and organ damage of five different monotrauma with three multiple trauma models. For this, mice were randomly assigned to 10 groups: Healthy control (Ctrl), Sham, hemorrhagic shock (HS), thoracic trauma (TxT), osteotomy with external fixation (Fx), bilateral soft tissue trauma (bsTT) or laparotomy (Lap); polytrauma I (PT I, TxT + HS + Fx), PT II (TxT + HS + Fx + Lap) and one multi-trauma group (MT, TxT + HS + bsTT + Lap). The inflammatory response and organ damage were quantified at 6 h by analyses of IL-6, IL-1β, IL-10, CXCL1, SAA1, HMGB1 and organ injury. Systemic IL-6 increased in all mono and multiple trauma groups, while CXCL1 increased only in HS, PT I, PT II and MT vs. control. Local inflammatory response was most prominent in HS, PT I, PT II and MT in the liver. Infiltration of inflammatory cells into lung and liver was significant in all multiple trauma groups vs. controls. Hepatic and pulmonary injury was prominent in HS, PT I, PT II and MT groups. These experimental multiple trauma models closely mimic the early post-traumatic inflammatory response in human. Though, the choice of read-out parameters is very important for therapeutic immune modulatory approaches.
Background: The gut microbiome can influence life history traits associated with host fitness such as fecundity and longevity. In most organisms, these two life history traits are traded-off, while they are positively linked in social insects. In ants, highly fecund queens can live for decades, while their non-reproducing workers exhibit much shorter lifespans. Yet, when fertility is induced in workers by death or removal of the queen, worker lifespan can increase. It is unclear how this positive link between fecundity and longevity is achieved and what role the gut microbiome and the immune system play in this. To gain insights into the molecular regulation of lifespan in social insects, we investigated fat body gene expression and gut microbiome composition in workers of the ant Temnothorax rugatulus in response to an experimental induction of fertility and an immune challenge.
Results: Fertile workers upregulated several molecular repair mechanisms, which could explain their extended lifespan. The immune challenge altered the expression of several thousand genes in the fat body, including many immune genes, and, interestingly, this transcriptomic response depended on worker fertility. For example, only fertile, immune-challenged workers upregulated genes involved in the synthesis of alpha-ketoglutarate, an immune system regulator, which extends the lifespan in Caenorhabditis elegans by down-regulating the TOR pathway and reducing oxidant production. Additionally, we observed a dramatic loss in bacterial diversity in the guts of the ants within a day of the immune challenge. Yet, bacterial density did not change, so that the gut microbiomes of many immune challenged workers consisted of only a single or a few bacterial strains. Moreover, the expression of immune genes was linked to the gut microbiome composition, suggesting that the ant host can regulate the microbiome in its gut.
Conclusions: Immune system flare-ups can have negative consequence on gut microbiome diversity, pointing to a previously underrated cost of immunity. Moreover, our results provide important insights into shifts in the molecular regulation of fertility and longevity associated with insect sociality.
A tale of two seasons: The link between seasonal migration and climatic niches in passerine birds
(2020)
The question of whether migratory birds track a specific climatic niche by seasonal movements has important implications for understanding the evolution of migration, the factors affecting species' distributions, and the responses of migrants to climate change. Despite much research, previous studies of bird migration have produced mixed results. However, whether migrants track climate is only one half of the question, the other being why residents remain in the same geographic range year-round. We provide a literature overview and test the hypothesis of seasonal niche tracking by evaluating seasonal climatic niche overlap across 437 migratory and resident species from eight clades of passerine birds. Seasonal climatic niches were based on a new global dataset of breeding and nonbreeding ranges. Overlap between climatic niches was quantified using ordination methods. We compared niche overlap of migratory species to two null expectations, (a) a scenario in which they do not migrate and (b) in comparison with the overlap experienced by closely related resident species, while controlling for breeding location and range size. Partly in accordance with the hypothesis of niche tracking, we found that the overlap of breeding versus nonbreeding climatic conditions in migratory species was greater than the overlap they would experience if they did not migrate. However, this was only true for migrants breeding outside the tropics and only relative to the overlap species would experience if they stayed in the breeding range year-round. In contrast to the hypothesis of niche tracking, migratory species experienced lower seasonal climatic niche overlap than resident species, with significant differences between tropical and nontropical species. Our study suggests that in seasonal nontropical environments migration away from the breeding range may serve to avoid seasonally harsh climate; however, different factors may drive seasonal movements in the climatically more stable tropical regions.
Introduction: From the beginning of the corona pandemic until August 19, 2020, more than 21,989,366 cases have been reported worldwide – 228,495 in Germany alone, including 12,648 children aged 0–14. In many countries, the proportion of infected children in the total population is comparatively low; in addition, children often have no or milder symptoms and are less likely to transmit the pathogen to adults than the other way round. Based on the registration data in Frankfurt am Main, Germany, the symptoms of children in comparison with adults and the likely routes of transmission are presented below.
Materials and methods: The documentation of the mandatory reports includes personal data (name, date of birth, gender, place of residence), disease characteristics (date of report, date of onset of the disease, symptoms), possible contact persons (family, others) and i.a. possible activity or care in children’s community facilities. All reports were viewed, especially with regard to likely transmission routes.
Results: From March 1 to July 31, 2020, 1,977 infected people were reported, including 138 children between the ages of 0 and 14 years. Children had fewer and milder symptoms than adults. None of the children experienced severe respiratory symptoms or the need for ventilation. 62% of the children had no symptoms at all (19% adults), 5% of the children were hospitalized (24% adults), and none of the children died (3.8% adults).
After excluding a cluster of 34 children from refugee accommodations and 14 children from a parish, 78% of the remaining 90 children had been infected by an adult within the family, and only 4% were likely to have a reverse transmission route. In 5.5% of cases, transmission in a community facility was likely.
Discussion: The results of the registration data from Frankfurt am Main, Germany confirm the results published in other countries: Children are less likely to become infected, and if infected, their symptoms are less severe than in adults, and they are apparently not the main drivers of virus transmission. Therefore, scientific medical associations strongly recommend reopening schools.
Uni-Highlights Dezember 2020 : Einladungen zu ausgewählten Veranstaltungen der Goethe-Universität
(2020)
This article documents and classifies instances of transnational intellectual property (IP) enforcement and licensing on the Internet with a particular focus on the territorial reach of the respective regimes. Regarding IP enforcement, I show that the bulk of transnational or even global measures is adopted in the context of “voluntary” self-regulation by various intermediaries, namely domain name registrars, access and host providers, search engines, and advertising and payment services. Global IP licensing is, in contrast, less prevalent than one might expect. It is practically limited to freely accessible Open Content, whereas markets for fee-based services remain territorially fragmented. Overall, three layers of IP governance on the Internet can be distinguished. Based on global licenses, Open Content is freely accessible everywhere. Plain IP infringements are equally combatted on a worldwide scale. Territorial fragmentation persists, instead, in the market segment of fee-based services and in hard cases of conflicts of IP laws/rights. All three universal norms (global accessibility, global illegality, global fragmentation) are supported by a quite solid, “rough” global consensus.
Die Zukunft der Freiheit
(2020)
Im Zentrum des Beitrags steht die Frage, ob und wie sich Freiheit verändert, wenn wir uns in Echo-Räumen bewegen, also in digitalen sozialen Netzwerken und in digitalen Welten, die aus den Vorhersagedaten des eigenen Verhaltens zusammengesetzt sind. Beide Varianten digitaler Welten werden als Bestätigungswelten charakterisiert, in denen der Nutzer sich in relevanten Aspekten seines Selbst nicht nur spiegelt, sondern immer wieder bestätigt und anerkannt sieht und auch andere bestätigt und anerkennt. Der Aufsatz verdeutlicht, dass es für die Frage der Freiheit in solchen Bestätigungswelten nicht nur darauf ankommt, ob wir nach den jeweils eigenen Gründen handeln oder nach Regeln, die wir gemeinsam mit anderen akzeptieren können. Denn solche Ansätze beruhen auf der unausgesprochenen Prämisse eines statischen Selbst, eine so verstandene Freiheit wäre eine statische Freiheit. Dem wird ein Verständnis von Freiheit als dynamischer Prozess gegenübergestellt, zu dem es gehört, die eigenen Gründe zu ändern. Dazu muss sich das Selbst von diesen Gründen aber erst einmal distanzieren und sich zu sich selbst verhalten können, was die Erfahrung von Widerspruch und Widerstand voraussetzt. Komplementär zu diesem Widerspruch ist es zudem auf Vertrauen angewiesen, um die Herausforderungen der Freiheit anzunehmen. Es wird gezeigt, dass sich beide Aspekte, die Freiheit als Risiko des Widerspruchs und das für die Freiheit notwendige komplementäre Vertrauen, in den digitalen Bestätigungswelten verflüchtigen.
Die zunehmende Durchdringung nahezu aller Lebensbereiche der Gesellschaft mit neuen digitalen Technologien, insbesondere mit künstlicher Intelligenz, hat zur Entstehung von smarten Ordnungen geführt. Darunter werden Ordnungen verstanden, die darauf ausgerichtet sind, durch intelligentes Design und mit Hilfe algorithmischer Operationen Abweichungen von ihren Normen zu minimieren oder ganz unmöglich zu machen. Der Beitrag erläutert einige Beispiele smarter Ordnungen und zeigt auf, dass zumindest im Grundsatz zwischen einer algorithmisch optimierten, normadressatenorientierten Prävention und einer adressatensubstituierenden Präemption abweichenden Verhaltens durch digitale Technologien unterschieden werden kann. Den Schwerpunkt des Beitrags bildet sodann die Frage ob und, gegebenenfalls, in welchem Sinne, smarte Ordnungen überhaupt noch normative Ordnungen sind. Im Verlauf der Analyse zeigt sich, dass Rechtsordnungen und andere normative Ordnungen zwar das Ziel einer effektiven Durchsetzung ihrer Normen verfolgen, aber nicht das Ideal vollständiger Nicht-Abweichung. Es wird deutlich, dass es zu den wesentlichen Aspekten normativer Ordnungen gehört, dass sie an Personen adressiert sind, die sie sich als autonome und zugleich fehlbare Personen zu eigen machen müssen und dabei unvermeidlich über die faktische Freiheit zur Normabweichung verfügen. Smarte Ordnungen hingegen erfüllen diese Kriterien nicht oder nur in geringem Maße. Letztlich sind sie nur in einem schwachen Sinne normativ, soweit die in technischen Prozessen implementierte Normativität für die Betroffenen noch präsent ist. In dem Maße jedoch, wie Normativität und ihre technische Realisation sich vermischen, bis ihre erfahrbare Präsenz abnimmt, verlieren sie ihren normativen Charakter.
Background: Eligibility criteria are a critical part of clinical trials, as they define the patient population under investigation. Besides certain patient characteristics, clinical trials often include biomarker testing for eligibility. However, patient-identification mostly relies on the trial site itself and is often a time-consuming procedure, which could result in missing out on potentially eligible patients. Pre-selection of those patients using a registry could facilitate the process of eligibility testing and increase the number of identified patients. One aim with the PRAEGNANT registry (NCT02338167) is to identify patients for therapies based on clinical and molecular data. Here, we report eligibility testing for the SHERBOC trial using the German PRAEGNANT registry.
Methods:Heregulin (HRG) has been reported to identify patients with better responses to therapy with the anti-HER3 monoclonal antibody seribantumab (MM-121). The SHERBOC trial investigated adding seribantumab (MM-121) to standard therapy in patients with advanced HER2-negative, hormone receptor–positive (HR-positive) breast cancer and HRG overexpression. The PRAEGNANT registry was used for identification and tumor testing, helping to link potential HRG positive patients to the trial. Patients enrolled in PRAEGNANT have invasive and metastatic or locally advanced, inoperable breast cancer. Patients eligible for SHERBOC were identified by using the registry. Study aims were to describe the HRG positivity rate, screening procedures, and patient characteristics associated with inclusion and exclusion criteria.
Results: Among 2769 unselected advanced breast cancer patients, 650 were HER2-negative, HR-positive and currently receiving first- or second-line treatment, thus potentially eligible for SHERBOC at the end of current treatment; 125 patients also met further clinical eligibility criteria (e.g. menopausal status, ECOG). In the first/second treatment lines, patients selected for SHERBOC based on further eligibility criteria had a more favorable prognosis than those not selected. HRG status was tested in 38 patients, 14 of whom (36.8%) proved to be HRG-positive.
Conclusion: Using a real-world breast cancer registry allowed identification of potentially eligible patients for SHERBOC focusing on patients with HER3 overexpressing, HR-positive, HER2-negative metastatic breast cancer. This approach may provide insights into differences between patients eligible or non-eligible for clinical trials.
Trial registration: Clinicaltrials, NCT02338167, Registered 14 January 2015 - retrospectively registered.
Background: Meta-analysis of observational studies concluded that soft drinks may increase the risk of depression, while high consumption of coffee and tea may reduce the risk. Objectives were to explore the associations between the consumption of soft drinks, coffee or tea and: (1) a history of major depressive disorder (MDD) and (2) the severity of depressive symptoms clusters (mood, cognitive and somatic/vegetative symptoms). Methods: Cross-sectional and longitudinal analysis based on baseline and 12-month-follow-up data collected from four countries participating in the European MooDFOOD prevention trial. In total, 941 overweight adults with subsyndromal depressive symptoms aged 18 to 75 years were analyzed. History of MDD, depressive symptoms and beverages intake were assessed. Results: Sugar-sweetened soft drinks were positively related to MDD history rates whereas soft drinks with non-nutritive sweeteners were inversely related for the high vs. low categories of intake. Longitudinal analysis showed no significant associations between beverages and mood, cognitive and somatic/vegetative clusters. Conclusion: Our findings point toward a relationship between soft drinks and past MDD diagnoses depending on how they are sweetened while we found no association with coffee and tea. No significant effects were found between any studied beverages and the depressive symptoms clusters in a sample of overweight adults.
Trypanosoma cruzi, the causative agent of Chagas disease, colonizes the gut of triatomine insects, including Rhodnius prolixus. It is believed that this colonization upsets the microbiota that are normally present, presumably switching the environment to one more favorable for parasite survival. It was previously thought that one particular bacterium, Rhodococcus rhodnii, was essential for insect survival due to its ability to produce vital B-complex vitamins. However, these bacteria are not always identified in great abundance in studies on R. prolixus microbiota. Here we sequenced the microbiota of the insect anterior midgut using shotgun metagenomic sequencing in order to obtain a high-resolution snapshot of the microbes inside at two different time points and under two conditions; in the presence or absence of parasite and immediately following infection, or three days post-infection. We identify a total of 217 metagenomic bins, and recovered one metagenome-assembled genome, which we placed in the genus Dickeya. We show that, despite Rhodococcus being present, it is not the only microbe capable of synthesizing B-complex vitamins, with the genes required for biosynthesis present in a number of different microbes. This work helps to gain a new insight into the microbial ecology of R. prolixus.
Bioaerosols are considered to play a relevant role in atmospheric processes, but their sources, properties, and spatiotemporal distribution in the atmosphere are not yet well characterized. In the Amazon Basin, primary biological aerosol particles (PBAPs) account for a large fraction of coarse particulate matter, and fungal spores are among the most abundant PBAPs in this area as well as in other vegetated continental regions. Furthermore, PBAPs could also be important ice nuclei in Amazonia. Measurement data on the release of fungal spores under natural conditions, however, are sparse. Here we present an experimental approach to analyze and quantify the spore release from fungi and other spore-producing organisms under natural and laboratory conditions. For measurements under natural conditions, the samples were kept in their natural environment and a setup was developed to estimate the spore release numbers and sizes as well as the microclimatic factors temperature and air humidity in parallel to the mesoclimatic parameters net radiation, rain, and fog occurrence. For experiments in the laboratory, we developed a cuvette to assess the particle size and number of newly released fungal spores under controlled conditions, simultaneously measuring temperature and relative humidity inside the cuvette. Both approaches were combined with bioaerosol sampling techniques to characterize the released particles using microscopic methods. For fruiting bodies of the basidiomycetous species, Rigidoporus microporus, the model species for which these techniques were tested, the highest frequency of spore release occurred in the range from 62 % to 96 % relative humidity. The results obtained for this model species reveal characteristic spore release patterns linked to environmental or experimental conditions, indicating that the moisture status of the sample may be a regulating factor, whereas temperature and light seem to play a minor role for this species. The presented approach enables systematic studies aimed at the quantification and validation of spore emission rates and inventories, which can be applied to a regional mapping of cryptogamic organisms under given environmental conditions.
In diesem Beitrag wird ein Vorschlag vorgestellt, wie es trotz langfristiger Niedrigzinsen möglich ist, die vor 18 Jahren eingeführte Riester-Rente so umzugestalten, dass alle Beteiligten davon profitieren. Wird die Mindestauszahlung am Ende der Vertragslaufzeit nur für die Eigenbeiträge, nicht aber für die staatlichen Zulagen garantiert, können deutlich höhere Renditen erzielt werden. Unter dem Strich haben dann nicht nur Privatleute mehr Geld aus ihrer Altersvorsorge, sondern der Staat wird mehr Steuern einnehmen und die Anbieter haben mehr Spielraum für bedarfsgerechte Produktgestaltung.
In the1960s, texts by the prominent German philosopher and musicologist Theodor W. Adorno were translated into the Czech and Slovak language. This was only possible due to the more relaxed social and political atmosphere of those years. The translated essays were published in professionally-oriented periodicals. This paper is aimed to map and evaluate the reception of Adorno’s translatedworks in Czechoslovakia. Although these texts embraced above all Adorno’s work in the sociology of philosophy, aesthetics of literature and musicology, this paper is mainly focused on Adorno’s musicological texts. Albeit mostly regarded as an original and extremely versatile author in Czechoslovakia, Adorno was also criticised on the background of Marxist-Leninist philosophy. In order to evaluate the reception of Adorno’s ideas in the Czech and Slovak environment, it is methodologically necessary to adopt a broader aesthetic-philosophical perspective that enables us to account for Adorno’s endorsement of the Marxist philosophy pursued at Frankfurt School of Philosophy.
Theoretical accounts agree that German restrictive relative clauses (RCs) are integrated at the level of syntax as well as at the level of prosody (; , ; ; ; ) in both the default verb-final and the marked verb-second variant (referred to as iV2). Both variants are assumed to show the same prosodic pattern, i. e., prosodic integration into the main clause, and not unintegrated prosody, which would signal a sequence of two main clauses. To date strong empirical evidence for this close correspondence between prosody and syntax in RCs is missing. Findings regarding prosodic integration of verb-final RCs are not consistent, and research regarding the prosody of iV2 structures is very scarce. Using a delayed sentence-repetition task, our study investigated whether subordination is signaled by prosody in RCs in both the verb-final and the V2 variant in adults (n = 21). In addition, we asked whether young language learners (n = 23), who at the age of 3 have just started to produce embedded clauses, are already sensitive to this mapping. The adult responses showed significantly more patterns of prosodic integration than of prosodic non-integration in the V-final and the iV2 structures, with no difference between the two conditions. Notably, the child responses mirrored this adult behavior, showing significantly more patterns of prosodic integration than of prosodic non-integration in both V-final and iV2 structures. The findings regarding adults’ prosodic realizations provide novel empirical evidence for the claim that iV2 structures, just like verb-final RCs, show prosodic integration. Moreover, our study strongly suggests that subordination is signaled by prosody already by age 3 in both verb-final and V2 variants of RCs.
The paper discusses the policy implications of the Wirecard scandal. The study finds that all lines of defense against corporate fraud, including internal control systems, external audits, the oversight bodies for financial reporting and auditing and the market supervisor, contributed to the scandal and are in need of reform. To ensure market integrity and investor protection in the future, the authors make eight suggestions for the market and institutional oversight architecture in Germany and in Europe.
Banks are not immune from COVID-19. The economic downturn may drive some banks to the point of non-viability (PONV). If so, is the resolution regime in the Euro-area ready to respond? No, for banks may not have the right amount of the right kind of liabilities to make bail-in work. That could lead to a banking crisis. The Euro area can avoid this risk, by arranging now for a recap later. This would plug the gap between what the failing bank has and what it would need to make bail-in work. To do so, banks would pay – possibly via the contributions they make to the Single Resolution Fund – a commitment fee to a European backstop authority for a mandatory, system-wide note issuance facility. This would compel each bank, as it approached or reached the PONV, to issue to the backstop, and the backstop to purchase from the bank, the obligations the failing bank needs in order to make bail-in work. Such obligations would take the form of “senior-most” non-preferred debt, and bail-in would stop with such debt. That would allow the SRB to use the bail-in tool to resolve the failed bank, reopen it and run it under a solvent wind-down strategy. That protects counterparties and customers and ensures the continuity of critical economic functions. It also keeps investors at risk and promotes market discipline. Above all, it preserves financial stability.
The turnover time of terrestrial carbon (τ) controls the global carbon cycle – climate feedback and, yet, is poorly simulated by the current Earth System Models (ESMs). In this study, by assessing apparent carbon turnover time as the ratio between carbon stocks and fluxes, we provide a new, updated ensemble of diagnostic terrestrial carbon turnover times and associated uncertainties on a global scale using multiple, state-of-the-art, observation-based datasets of soil organic carbon stock (Csoil), vegetation biomass (Cveg) and gross primary productivity (GPP). Using this new ensemble, we estimated the global average τ to be 42$% &' years when the full soil depth is considered, longer than the previous estimates of 23$) &* years. Only considering the top 1 m (assuming maximum active layer depth is up to 1 meter) of soil carbon in circumpolar regions yields a global τ of 35$) &' years. Csoil in circumpolar regions account for two thirds of the total uncertainty in global τ estimates, whereas Csoil in non-circumpolar contributes merely 9.38%. GPP (2.25%) and Cveg (0.05%) contribute even less to the total uncertainty. Therefore, the high uncertainty in Csoil is the main factor behind the uncertainty in global τ, as reflected in the larger range of full-depth Csoil (3152-4372 PgC). The uncertainty is especially high in circumpolar regions with a behaviour of ESMs which could contribute to uncertainty reductions in future projections of the carbon cycle - climate feedback. The dataset of the terrestrial turnover time ensemble (DOI: 10.17871/bgitau.201911) is openly available from the data portal: https://doi.org/10.17871/bgitau.201911 (Fan et al., 2019) uncertainty of 50% and the spatial correlations among different datasets are also low compared to other regions. Overall, we argue that current global datasets do not support robust estimates of τ globally, for which we need clarification on variations of Csoil with soil depth and stronger estimates of Csoil in circumpolar regions. Despite the large variation in both magnitude and spatial patterns of τ, we identified robust features in the spatial patterns of τ that emerge regardless of soil depth and differences in data sources of Csoil, Cveg and GPP. Our findings show that the latitudinal gradients of τ are consistent across different datasets and soil depth. Furthermore, there is a strong consensus on the negative correlation between τ and temperature along latitude that is stronger in temperate zones (30ºN-60ºN) than in subtropical and tropical zones (30ºS30ºN). The identified robust patterns can be used to infer the response of τ to climate and for constraining contemporaneous behaviour of ESMs which could contribute to uncertainty reductions in future projections of the carbon cycle - climate feedback. The dataset of the terrestrial turnover time ensemble (DOI:10.17871/bgitau.201911) is openly available from the data portal: https://doi.org/10.17871/bgitau.201911 (Fan et al., 2019).
The turnover time of terrestrial ecosystem carbon is an emergent ecosystem property that quantifies the strength of land surface on the global carbon cycle–climate feedback. However, observation- and modeling-based estimates of carbon turnover and its response to climate are still characterized by large uncertainties. In this study, by assessing the apparent whole ecosystem carbon turnover times (τ) as the ratio between carbon stocks and fluxes, we provide an update of this ecosystem level diagnostic and its associated uncertainties in high spatial resolution (0.083∘) using multiple, state-of-the-art, observation-based datasets of soil organic carbon stock (Csoil), vegetation biomass (Cveg) and gross primary productivity (GPP). Using this new ensemble of data, we estimated the global median τ to be 43+7−7 yr (median+difference to percentile 75−difference to percentile 25) when the full soil is considered, in contrast to limiting it to 1 m depth. Only considering the top 1 m of soil carbon in circumpolar regions (assuming maximum active layer depth is up to 1 m) yields a global median τ of 37+3−6 yr, which is longer than the previous estimates of 23+7−4 yr (Carvalhais et al., 2014). We show that the difference is mostly attributed to changes in global Csoil estimates. Csoil accounts for approximately 84 % of the total uncertainty in global τ estimates; GPP also contributes significantly (15 %), whereas Cveg contributes only marginally (less than 1 %) to the total uncertainty. The high uncertainty in Csoil is reflected in the large range across state-of-the-art data products, in which full-depth Csoil spans between 3362 and 4792 PgC. The uncertainty is especially high in circumpolar regions with an uncertainty of 50 % and a low spatial correlation between the different datasets (0.2<r<0.5) when compared to other regions (0.6<r<0.8). These uncertainties cast a shadow on current global estimates of τ in circumpolar regions, for which further geographical representativeness and clarification on variations in Csoil with soil depth are needed. Different GPP estimates contribute significantly to the uncertainties of τ mainly in semiarid and arid regions, whereas Cveg causes the uncertainties of τ in the subtropics and tropics. In spite of the large uncertainties, our findings reveal that the latitudinal gradients of τ are consistent across different datasets and soil depths. The current results show a strong ensemble agreement on the negative correlation between τ and temperature along latitude that is stronger in temperate zones (30–60∘ N) than in the subtropical and tropical zones (30∘ S–30∘ N). Additionally, while the strength of the τ–precipitation correlation was dependent on the Csoil data source, the latitudinal gradients also agree among different ensemble members. Overall, and despite the large variation in τ, we identified robust features in the spatial patterns of τ that emerge beyond the differences stemming from the data-driven estimates of Csoil, Cveg and GPP. These robust patterns, and associated uncertainties, can be used to infer τ–climate relationships and for constraining contemporaneous behavior of Earth system models (ESMs), which could contribute to uncertainty reductions in future projections of the carbon cycle–climate feedback. The dataset of τ is openly available at https://doi.org/10.17871/bgitau.201911 (Fan et al., 2019).
We construct a new equation of state for the baryonic matter under an intense magnetic field within the framework of covariant density functional theory. The composition of matter includes hyperons as well as Δ-resonances. The extension of the nucleonic functional to the hypernuclear sector is constrained by the experimental data on Λ and Ξ-hypernuclei. We find that the equation of state stiffens with the inclusion of the magnetic field, which increases the maximum mass of neutron star compared to the non-magnetic case. In addition, the strangeness fraction in the matter is enhanced. Several observables, like the Dirac effective mass, particle abundances, etc. show typical oscillatory behavior as a function of the magnetic field and/or density which is traced back to the occupation pattern of Landau levels.
Glia, the helper cells of the brain, are essential in maintaining neural resilience across time and varying challenges: By reacting to changes in neuronal health glia carefully balance repair or disposal of injured neurons. Malfunction of these interactions is implicated in many neurodegenerative diseases. We present a reductionist model that mimics repair-or-dispose decisions to generate a hypothesis for the cause of disease onset. The model assumes four tissue states: healthy and challenged tissue, primed tissue at risk of acute damage propagation, and chronic neurodegeneration. We discuss analogies to progression stages observed in the most common neurodegenerative conditions and to experimental observations of cellular signaling pathways of glia-neuron crosstalk. The model suggests that the onset of neurodegeneration can result as a compromise between two conflicting goals: short-term resilience to stressors versus long-term prevention of tissue damage.
The miRNA biogenesis is tightly regulated to avoid dysfunction and consequent disease development. Here, we describe modulation of miRNA processing as a novel noncanonical function of the 5-lipoxygenase (5-LO) enzyme in monocytic cells. In differentiated Mono Mac 6 (MM6) cells, we found an in situ interaction of 5-LO with Dicer, a key enzyme in miRNA biogenesis. RNA sequencing of small noncoding RNAs revealed a functional impact, knockout of 5-LO altered the expression profile of several miRNAs. Effects of 5-LO could be observed at two levels. qPCR analyses thus indicated that (a) 5-LO promotes the transcription of the evolutionarily conserved miR-99b/let-7e/miR-125a cluster and (b) the 5-LO-Dicer interaction downregulates the processing of pre-let-7e, resulting in an increase in miR-125a and miR-99b levels by 5-LO without concomitant changes in let-7e levels in differentiated MM6 cells. Our observations suggest that 5-LO regulates the miRNA profile by modulating the Dicer-mediated processing of distinct pre-miRNAs. 5-LO inhibits the formation of let-7e which is a well-known inducer of cell differentiation, but promotes the generation of miR-99b and miR-125a known to induce cell proliferation and the maintenance of leukemic stem cell functions.
Inflation ist ein Konstrukt. Sie wird von unterschiedlichen Akteur*innen unterschiedlich wahrgenommen. Zum Teil passiert dies, weil Warenkörbe differieren, zum Teil weil Erwartungen unterschiedlich gebildet werden. Dieser Beitrag diskutiert die Heterogenität der Infl ation und ihrer Wahrnehmung und was dies für die Zielgröße der Zentralbankpolitik bedeutet.
Inflation ist ein Konstrukt. Sie wird von unterschiedlichen Akteuren unterschiedlich wahrgenommen. Zum Teil passiert dies, weil Warenkörbe differieren, zum Teil weil Erwartungen unterschiedlich gebildet werden. Dieser Beitrag diskutiert die Heterogenität der Inflation und ihrer Wahrnehmung und was dies für die Zielgröße der Zentralbankpolitik bedeutet.
The paper compares provision of public infrastructure via public-private partnerships (PPPs) with provision under government management. Due to soft budget constraints of government management, PPPs exert more effort and therefore have a cost advantage in building infrastructure. At the same time, hard budget constraints for PPPs introduce a bankruptcy risk and bankruptcy costs. Consequently, if bankruptcy costs are high, PPPs may be less efficient than public management, although this does not result from PPPs’ higher interest costs.
We develop a novel empirical approach to identify the effectiveness of policies against a pandemic. The essence of our approach is the insight that epidemic dynamics are best tracked over stages, rather than over time. We use a normalization procedure that makes the pre-policy paths of the epidemic identical across regions. The procedure uncovers regional variation in the stage of the epidemic at the time of policy implementation. This variation delivers clean identification of the policy effect based on the epidemic path of a leading region that serves as a counterfactual for other regions. We apply our method to evaluate the effectiveness of the nationwide stay-home policy enacted in Spain against the Covid-19 pandemic. We find that the policy saved 15.9% of lives relative to the number of deaths that would have occurred had it not been for the policy intervention. Its effectiveness evolves with the epidemic and is larger when implemented at earlier stages.
This essay argues for the philosophical standing of Walter Benjamin’s early work and posits a deeper continuity between this early work as a philosopher and the subsequent development of his work as a writer. When these fragments are read in proper relation to each other, they reveal for the first time many of the key innovations of Benjamin as a philosopher, as well as his points of influence on Horkheimer and Adorno. His early ‘Program’ critiques the Enlightenment conception of experience as a means for gaining empirical knowledge, and announces the need for a new concept of experience. Benjamin follows through on this program with a method of philosophical enquiry that is by turns fragmentary and constellational, developing a series of provisional notions of experience, which form a constellation with one another: perception, mimesis, language as a medium of experience, observation and memory.
Two main types of methods are used in gene therapy: integrating vectors and nuclease-based genome engineering. Nucleases are site-specific and are efficient for knock-outs, but inefficient at inserting long DNA sequences. Integrating vectors perform this task with high efficiency, but their insertion occurs at random genomic positions. This can result in transformation of target cells, which leads to severe adverse events in a gene therapy context. Thus, it is of great interest to develop novel genome engineering tools that combine the advantages of both technologies. The main focus of this thesis is on generating such a targetable integrating vector.
The integrating vector used in this project is the Sleeping Beauty (SB) transposon, a DNA transposon characterized by high activity across a wide range of cells. The SB transposase was combined with an RNA-guided Cas9 nuclease domain. This nuclease component was meant to direct transposase integration to specific targets defined by RNAs. The SB transposase was fused to cleavage-inactivated Cas9 (dCas9) to tether it to the target sites. In addition, adapter proteins consisting of dCas9 and domains non-covalently interacting with SB transposase or the SB transposon were generated. All constituent domains of these fusion proteins were tested in enzymatic assays and almost all enzymatic activities could be verified.
Combining the fusion protein dCas9-SB100X with a gRNA binding a sequence from the AluY repetitive element resulted in a weak, but statistically significant enrichment around sites bound by the gRNA. This enrichment was ca. 2-fold and occurred within a 300 bp window downstream of target sites, or within the AluY element.
Targeting with adapter proteins and targeting of other targets (L1 elements or single-copy targets) did not result in statistically significant effects. Single-copy targets tested included the HPRT gene and three specifically selected GSH targets that were known to be receptive to SB insertions. The combination with a more sequence-specific transposase mutant also failed to increase specificity to a level allowing targeting of single-copy loci. Genome-wide analysis of insertions however demonstrated, that dCas9-SB100X has a different insertion profile than SB100X, regardless of the gRNA used.
As low efficiency of retargeting is likely a consequence of the high background activity of the SB100X transposase in the fusion constructs, a SB mutant with reduced DNA affinity, SB(C42), was generated. For this mutant, transposition activity was partly dependent on a dCas9 domain being supplied with a multi-copy target gRNA, specifically a 2-fold increase in the presence of a AluY-directed gRNA. Whether using this mutant results in improved targeting remains to be determined.
In a side project, an attempt was made to direct SB insertions to ribosomal DNA by fusing the transposase to a nucleolar protein. This fusion transposase partially localized to nucleoli and insertions catalyzed by this transposase were found to be enriched in nucleolus organizer regions (NORs) and nucleolus-associated domains (NADs).
The aim of a second side project was increasing the ratio between homology-directed repair (HDR) and non-homologous end-joining (NHEJ) at Cas9-mediated double-strand breaks (DSBs). To achieve this, Cas9 was fused to DNA-interacting domains and corresponding binding sequences were fused to the homology donors. While an increased HDR/NHEJ ration could be observed for the fusion proteins, it was not dependent on the presence on the binding sequences in the donor molecules.
A Large Ion Collider Experiment (ALICE) is one of the four large experiments at the Large Hadron Collider (LHC) at the European Organization for Particle Physics (CERN). ALICE focuses on the physics of the strong interaction and in particular on the Quark-Gluon Plasma. This is a state of matter in which quarks are de-confined. It is believed that it existed in the earliest moments of the evolution of the universe. The ALICE detector studies the products of the collisions between heavy-nuclei, between protons, and between protons and heavy-nuclei. The sub-detector closest to the interaction point is the Inner Tracking System (ITS), which is used to measure the momentum and trajectory of the particles generated by the collisions and allows reconstructing primary and secondary interaction vertices. The ITS needs to have an accurate spatial resolution, together with a low material budget to limit the effect of multiple scattering on low-energetic particles to precisely reconstruct their trajectory. During the Long Shutdown 2 (2019-2020) of the LHC, the current ITS will be replaced by a completely redesigned sub-detector, which will improve readout rate and particle tracking performance especially at low-momentum.
The ALice PIxel DEtector (ALPIDE) chip was designed to meet the requirements of the upgraded ITS in terms of resolution, material budget, radiation hardness, and readout rate. The ALPIDE chip is a Monolithic Active Pixel Sensor (MAPS) realised in Complementary Metal-Oxide Semiconductor (CMOS) technology. Sensing element, analogue front-end, and its digital readout are integrated into the same silicon die. The readout architecture of the new ITS foresees that data is transmitted via a high-speed serial link directly from the ALPIDE to the off-detector electronics. The data is transmitted off-chip by a so-called Data Transmission Unit (DTU) which needs to be tolerant to Single-Event Effects induced by radiation, in order to guarantee reliable operation. The ALPIDE chip will operate in a radiation field with a High-Energy Hadron peak flux of 7.7·10^5 cm^-2s^-1.
The data are sent by the ALPIDE on copper cables to the readout system, which aggregates them and re-transmits them via optical fibres to the counting room. The position where the readout electronics will be placed is constrained by the maximum transmission distance reasonably achievable by the ALPIDE Data Transmission Unit and mechanical constraints of the ALICE experiment. The radiation field at that location is not negligible for its effects on electronics: the high-energy hadrons flux can reach 10^3 cm^-2s^-1. Static RAM (SRAM)-based Field Programmable Gate Arrays (FPGAs) are favoured over Application Specific Integrated Circuits (ASICs) or Radiation Hard by Design (RHBD) commercial devices because of cost effectiveness. Moreover, SRAM-based FPGAs are re-configurable and provide the data throughput required by the ITS. The main issue with SRAM-based FPGAs, for the intended application, is the susceptibility of their Configuration RAM (CRAM) to Single-Event Upsets: the number of CRAM bits is indeed much higher than the logic they configure. Total Ionizing Dose (TID) at the readout designed position is indeed still acceptable for Component Off The Shelf (COTS), provided that proper verification is carried out.
This dissertation focuses on two parts of the design of the readout system: the Data Transmission Unit of the ALPIDE chip and the design of fundamental modules for the SRAM-based FPGA of the readout electronics. In the first part, a module of the Data Transmission Unit is designed, optimising the trade-off between power consumption, radiation tolerance, and jitter performance. The design was tested and thoroughly characterised, including tests while under irradiation with a 30 MeV protons. Furthermore the Data Transmission Unit performance was validated after the integration into the first prototypes of ITS modules. In the second part, the problem of developing a radiation-tolerant SRAM-based FPGA design is investigated and a solution is provided. First, a general methodology for designing radiation-tolerant Finite State Machines in SRAM-based FPGAs is analysed, implemented, and verified. Later, the radiation-tolerant FPGA design for the ITS readout is described together with the radiation effects mitigation techniques that were selectively applied to the different modules. The design was tested with multiple irradiation tests and the results are stated below.
Proteine sind die Maschinen der Zellen. Um die Funktionalität von zahlreichen zellulären Prozessen zu gewährleisten, müssen Kommunikationssignale innerhalb von Proteinen weitergeleitet werden. Die Weiterleitung einer Störung an einem Ort im Protein zu einer entfernten Stelle, an welcher sie strukturelle und/oder dynamische Änderungen auslöst, wird Allosterie genannt. Zunächst wurde Allosterie hauptsächlich mit großräumigen Konformationsänderungen in Verbindung gebracht, aber später entwickelte sich ein dynamischerer Blickwinkel auf Allosterie in Abwesenheit dieser großräumigen Konformationsänderungen. Die Idee eines allosterischen Pfades bestehend aus konservierten und energetisch gekoppelten Aminosäuren, welche die Signalweiterleitung zwischen entfernten Stellen im Protein vermitteln, entstand. Diese allosterischen Pfade wurden durch zahlreiche theoretische Studien in Zusammenhang mit Pfaden effizienten anisotropen Energieflusses gebracht. Der Energiefluss entlang dieser Netzwerke verknüpft allosterische Signalübertragung mit Schwingungsenergietransfer (VET - vibrational energy transfer). Die Großzahl der Forschungsarbeiten über dynamische Allosterie basiert auf theoretischen Methoden, weil nur wenige geeignete experimentelle Verfahren existieren. Um diesen essentiellen biologischen Prozess der Informationsübertragung besser verstehen zu können, ist die Entwicklung neuer und leistungsstarker experimenteller Instrumente und Techniken daher dringend erforderlich. Die vorliegende Dissertation setzt sich dies zum Ziel.
VET in Proteinen ist aufgrund der Proteingeometrie inhärent anisotrop. Alle globulären Proteine besitzen Kanäle effizienten Energieflusses, von denen vermutet wird, dass sie wichtig für Proteinfunktionen, wie die schnelle Ableitung von überschüssiger Wärme, Ligandenbindung und allosterische Signalweiterleitung, sind. VET kann mit zeitaufgelöster Infrarot (IR) Spektroskopie untersucht werden, bei welcher ein Femtosekunden Anregepuls eines Lasers Schwingungsenergie in ein molekulares System an einer bestimmten Stelle injiziert und ein, nach einem veränderbarem Zeitintervall folgender, IR Abfragepuls die Ausbreitung dieser Schwingungsenergie detektiert. Ein protein-kompatibler und universell einsetzbarer Chromophor, der die Energie eines sichtbaren Photons in Schwingungsenergie konvertiert, wird als Heizelement benötigt um langreichweitige VET Pfade in Proteinen kartieren zu können. Der Azulen (Azu) Chromophor eignet sich dafür, weil er nach Photoanregung des ersten elektronischen Zustandes durch ultraschnelle interne Konversion fast die gesamte injizierte Energie innerhalb von einer Picosekunde in Schwingungsenergie umwandelt. Eingebettet in die nicht-kanonische Aminosäure (ncAA - non-canonical amino acid) ß-(1-Azulenyl)-L-Alanine (AzAla), kann der Azu Rest in Proteine eingebaut werden. Die Ankunft der injizierten Schwingungsenergie an einer bestimmten Stelle im Protein kann mithilfe eines IR Sensors detektiert werden. Die Kombination aus Azu als VET Heizelement und Azidohomoalanine (Aha) als VET Sensor mit transienter IR (TRIR) Spektroskopie wurde schon erfolgreich an kleinen Peptiden in der Dissertation von H. M. Müller-Werkmeister getestet, die der vorliegenden Dissertation in den Laboren der Bredenbeck Gruppe vorausging.
Die Schwingungsfrequenz chemischer Bindungen ist hochempfindlich auf selbst kleine Änderungen der Konformation und Dynamik in der unmittelbaren Umgebung und kann mit IR Spektroskopie gemessen werden, z. B. mit Fourier Transform IR (FTIR) Spektroskopie. IR Spektroskopie bietet eine außergewöhnlich gute Zeitauflösung, die es ermöglicht, dynamische Prozesse in Molekülen auf einer Zeitskala von wenigen Picosekunden zu beobachten, wie z. B. die ultraschnelle Weiterleitung von Schwingungsenergie. Mit zweidimensionaler (2D)-IR Spektroskopie können die Relaxation von schwingungsangeregten Zuständen und strukturelle Fluktuationen um die schwingende Bindung untersucht werden. Allerdings geht die herausragende Zeitauflösung mit limitierter spektraler Auflösung einher. In größeren Molekülen mit zahlreichen Bindungen überlagern sich die Schwingungsbanden und die Ortsauflösung geht verloren. Um diese Limitierung zu überwinden, können IR Marker benutzt werden, chemische Gruppen, die in einer spektral durchsichtigen Region des Protein/Wasser Spektrums (1800 bis 2500 cm-1) absorbieren. Als ncAA können sie kotranslational in Proteine an einer gewünschten Stelle eingebaut werden und so ortsspezifische Informationen aus dem Proteininneren liefern. Aufgrund ihrer geringen Größe, eines relativ großen Extinktionskoeffizientens (350-400 M-1cm-1) und einer hohen Empfindlichkeit auf Änderungen in der lokalen Umgebung sind organische Azide (N3) wie zum Beispiel Aha besonders geeignete IR Marker. Aha kann als Methionin Analogon ins Protein eingebaut werden.
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The role of radiation therapy in the treatment of (colo)-rectal cancer has changed dramatically over the past decades. Introduced with the aim of reducing the high rates of local recurrences after conventional surgery, major developments in imaging, surgical technique, systemic therapy and radiation delivery have now created a much more complex environment leading to a more personalized approach. Functional aspects including reduction of acute or late treatment-related side effects, sphincter or even organ-preservation and the unsolved problem of still high distant failure rates have become more important while local recurrence rates can be kept low in the vast majority of patients. This review summarizes the actual role of radiation therapy in different subgroups of patients with rectal cancer, including the current standard approach in different subgroups as well as recent developments focusing on neoadjuvant treatment intensification and/or non-operative treatment approaches aiming at organ-preservation.
The novel coronavirus infection (COVID-19) is caused by the new coronavirus SARS-CoV-2 and is characterized by an exaggerated inflammatory response that can lead to severe manifestations such as adult respiratory syndrome, sepsis, coagulopathy, and death in a proportion of patients. Among other factors and direct viral effects, the increase in the vasoconstrictor angiotensin II, the decrease in the vasodilator angiotensin, and the sepsis-induced release of cytokines can trigger a coagulopathy in COVID-19. A coagulopathy has been reported in up to 50% of patients with severe COVID-19 manifestations. An increase in d-dimer is the most significant change in coagulation parameters in severe COVID-19 patients, and progressively increasing values can be used as a prognostic parameter indicating a worse outcome. Limited data suggest a high incidence of deep vein thrombosis and pulmonary embolism in up to 40% of patients, despite the use of a standard dose of low-molecular-weight heparin (LMWH) in most cases. In addition, pulmonary microvascular thrombosis has been reported and may play a role in progressive lung failure. Prophylactic LMWH has been recommended by the International Society on Thrombosis and Haemostasis (ISTH) and the American Society of Hematology (ASH), but the best effective dosage is uncertain. Adapted to the individual risk of thrombosis and the d-dimer value, higher doses can be considered, especially since bleeding events in COVID-19 are rare. Besides the anticoagulant effect of LMWH, nonanticoagulant properties such as the reduction in interleukin 6 release have been shown to improve the complex picture of coagulopathy in patients with COVID-19.
Neutron total cross sections are an important source of experimental data in the evaluation of neutron-induced cross sections. The sum of all neutron-induced reaction cross sections can be determined with a precision of a few per cent in a relative measurement. The neutron spectrum of the photoneutron source nELBE extends in the fast region from about 100 keV to 10 MeV and has favourable conditions for transmission measurements due to the low instantaneous flux of neutrons and low gamma-flash background. Several materials of interest (in part included in the CIELO evaluation or on the HPRL of OECD/NEA) have been investigated: 197Au [1, 2], natFe [2], natW [2], 238U, natPt, 4He, natO, natNe, natXe. For gaseous targets high pressure gas cells with flat end-caps have been built that hold up to 200 bar pressure. The experimental setup will be presented including results from several transmission experiments and the data analysis leading to the total cross sections will be discussed.