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Let me start with a reminiscence: a few weeks ago, I was sitting in one of my preferred cafés in Paris, le Café Odéon- Théâtre de l’Europe, a vivid place near the Jardin de Luxembourg in the heart of the university quarter. I realised that the waiter was wearing a shirt with the letters "Defend Paris", which he explained to be a statement against the forces that make Paris an uneasy place to live, a defiance against the powerful and social injustice. With a mixture of rebellion and idealism, he added that he understands himself as part of a "Reclaim Your City" Movement, thus representing what is central for urban citizenship today: a republican defence against forces that make a metropolitan city a trademark to be sold to people who can afford it, but increasingly less a home for ordinary people who want to live in the city. Walking through the streets, passing a small jewelry shop, a place of distinguished understatement showing a picture of Meghan Markle wearing "rose"-earrings displayed in the window, the term "zombie urbanism" came to my mind – a term used by Jonny Aspen, professor at the Institute of Urbanism and Landscape in Oslo (See Bjerkeset and Aspen (forthcoming 2020) and here), to describe a cliché-like way of dealing with urban environment by developers and designers – a "staged urbanism", in which urban features are used as a means for selling, marketing and branding. This kind of city-marketing can prove quite successful: whereas the burning of Notre Dame mobilised hundreds of millions of donations within a short period of time, the burning of the National Museum in Rio de Janeiro soon after, extinguishing 200 years of documentation of cultural memory, mobilised only 225.000 Euros (state 1.4.2019). ...
Mit einem um die Behandlungskapazität des Gesundheitssystems erweiterten epidemiologischen SIRD-Modell werden Mechanismen und Dynamik einer Virusepidemie wie Corona anhand von stilisierten politischen Reaktionsmustern (Ignore, Shutdown, Ignore-Shutdown-Relax) simuliert. Ferner werden aus dem Modell Lehren für die statistische Analyse von Corona gezogen, wie die Aussagekraft publizierter Verdopplungszeiten und Reproduktionszahlen. Die Dunkelziffer unbestätigter Fälle und die im Epidemieverlauf variable Genauigkeit von medizinischen Infektionstests werden diskutiert. Zur Messung der medizinischen Kosten von Corona sowie für regionale und internationale Vergleiche wird ein Schadensindex der verlorenen Lebenszeit vorgeschlagen. Zuletzt geht die Arbeit kurz auf die ökonomischen Kosten von Corona in Deutschland ein.
We are students, scholars, and academics at European universities who unequivocally condemn the violent attacks on student and faculty members of Jawaharlal Nehru University (JNU), New Delhi that took place on 5th January 2020. We see the attacks as part of the larger pattern of systematic violence that is being consistently inflicted on students across Indian universities for the past month by the Indian police in collusion with far-right organisations. We are shocked by the proclivity of the Indian State to turn upon its own students, and by the failure of universities and other academic institutions to protect their members; the cases are too many to be all listed here, but along with JNU, this inhumane orchestration of violence has extended to Aligarh Muslim University, Banaras Hindu University in Uttar Pradesh, and Jamia Millia Islamia in New Delhi. ...
Body dysmorphic disorder (BDD), together with its subtype muscle dysmorphia (MD), has been relocated from the Somatoform Disorders category in the DSM-IV to the newly created Obsessive-Compulsive and Related Disorders category in the DSM-5. Both categorizations have been criticized, and an empirically derived classification of BDD is lacking. A community sample of N = 736 participants completed an online survey assessing different psychopathologies. Using a structural equation modeling approach, six theoretically derived models, which differed in their allocation of BDD symptoms to various factors (i.e. general psychopathology, somatoform, obsessive-compulsive and related disorders, affective, body image, and BDD model) were tested in the full sample and in a restricted sample (n = 465) which indicated primary concerns other than shape and weight. Furthermore, measurement invariance across gender was examined. Of the six models, only the body image model showed a good fit (CFI = 0.972, RMSEA = 0.049, SRMR = 0.027, TLI = 0.959), and yielded better AIC and BIC indices than the competing models. Analyses in the restricted sample replicated these findings. Analyses of measurement invariance of the body image model showed partial metric invariance across gender. The findings suggest that a body image model provides the best fit for the classification of BDD and MD. This is in line with previous studies showing strong similarities between eating disorders and BDD, including MD. Measurement invariance across gender indicates a comparable presentation and comorbid structure of BDD in males and females, which also corresponds to the equal prevalence rates of BDD across gender.
The teaching of professional roles in medical education is an interdisciplinary concern. However, surgeons require specific standards of professionalism for certain context-based situations. In addition to communication, studies require collaboration, leadership, error-/conflict-management, patient-safety and decision-making as essential competencies for surgeons. Standards for corresponding competencies are defined in special chapters of the German National Competency-based Learning Objectives for Undergraduate Medical Education (NKLM; chapter 8, 10). The current study asks whether these chapters are adequately taught in surgical curricula. Eight German faculties contributed to analysing mapping data considering surgical courses of undergraduate programs. All faculties used the MERlin mapping platform and agreed on procedures for data collection and processing. Sub-competency and objective coverage, as well as the achievement of the competency level were mapped. Overall counts of explicit citations were used for analysis. Collaboration within the medical team is a strongly represented topic. In contrast, interprofessional cooperation, particularly in healthcare sector issues is less represented. Patient safety and dealing with errors and complications is most emphasized for the Manager/Leader, while time management, career planning and leadership are not addressed. Overall, the involvement of surgery in teaching the competencies of the Collaborator and Manager/Leader is currently low. However, there are indications of a curricular development towards explicit teaching of these roles in surgery. Moreover, implicitly taught roles are numerous, which indicates a beginning awareness of professional roles.
Introduction: Esophageal atresia with or without tracheoesophageal fistula (EA/TEF) occurs approximately 1 in 3.500 live births representing the most common malformation of the upper digestive tract. Only half a century ago, EA/TEF was fatal among affected newborns suggesting that the steady birth prevalence might in parts be due to mutational de novo events in genes involved in foregut development.
Methods: To identify mutational de novo events in EA/TEF patients, we surveyed the exome of 30 case-parent trios. Identified and confirmed de novo variants were prioritized using in silico prediction tools. To investigate the embryonic role of genes harboring prioritized de novo variants we performed targeted analysis of mouse transcriptome data of esophageal tissue obtained at the embryonic day (E) E8.5, E12.5, and postnatal.
Results: In total we prioritized 14 novel de novo variants in 14 different genes (APOL2, EEF1D, CHD7, FANCB, GGT6, KIAA0556, NFX1, NPR2, PIGC, SLC5A2, TANC2, TRPS1, UBA3, and ZFHX3) and eight rare de novo variants in eight additional genes (CELSR1, CLP1, GPR133, HPS3, MTA3, PLEC, STAB1, and PPIP5K2). Through personal communication during the project, we identified an additional EA/TEF case-parent trio with a rare de novo variant in ZFHX3. In silico prediction analysis of the identified variants and comparative analysis of mouse transcriptome data of esophageal tissue obtained at E8.5, E12.5, and postnatal prioritized CHD7, TRPS1, and ZFHX3 as EA/TEF candidate genes. Re-sequencing of ZFHX3 in additional 192 EA/TEF patients did not identify further putative EA/TEF-associated variants.
Conclusion: Our study suggests that rare mutational de novo events in genes involved in foregut development contribute to the development of EA/TEF.
Background: A web-based malaria reporting information system (MRIS) has the potential to improve malaria reporting and management. The aim of this study was to evaluate the existing manual paper-based MRIS and to provide a way to overcome the obstacles by developing a web-based MRIS in Indonesia.
Methods: An exploratory study was conducted in 2012 in Lahat District, South Sumatra Province of Indonesia. We evaluated the current reporting system and identified the potential benefits of using a web-based MRIS by in-depth interviews on selected key informants. Feasibility study was then conducted to develop a prototype system. A web-based MRIS was developed, integrated and synchronized, with suitability ranging from Primary Healthcare Centres (PHCs) to the Lahat District Health Office.
Results: The paper-based reporting system was sub-optimal due to a lack of transportation, communication, and human capacity. We developed a web-based MRIS to replace the current one. Although the web-based system has the potential to improve the malaria reporting information system, there were some barriers to its implementation, including lack of skilled operators, computer availability and lack of internet access. Recommended ways to overcome the obstacles are by training operators, making the application in an offline mode and able to be operated by mobile phone text messaging for malaria reporting.
Conclusion: The web-based MRIS has the potential to be implemented as an enhanced malaria reporting information system and investment in the system to support timely management responses is essential for malaria elimination. The developed application can be cloned to other areas that have similar characteristics and MRIS with a built-in web base to aid its application in the 5G future.
This Policy White Paper assesses several main elements of ECB’s upcoming review of its monetary policy strategy, announced in January 2020. Four aspects of the review are discussed in detail: i) ECB’s definition of price stability and the arguments for and against inflation targeting; ii) the scope of ECB’s objectives, considering financial stability, employment and the sustainability of the environment; iii) an update of ECB’s economic and monetary analyses to assess the risks to price stability; iv) the ECB’s communication practice. Furthermore, an overview of the ECB’s monetary policy strategy and its last evaluation in 2003 is given.
Mit dem Ziel, Erkenntnisse zum individuellen Mobilitätsverhalten im Zusammenhang mit der Gestaltung des umgebenden Verkehrssystems zu gewinnen, wurde im Rahmen des vom Land Hessen geförderten LOEWE-Schwerpunkts „Infrastruktur – Design – Gesellschaft“ im März und April 2019 eine schriftliche Haushaltsbefragung in einem innerstädtischen Gebiet der Großstadt Offenbach am Main durchgeführt (n=701). Der vorliegende Bericht beschreibt die methodische Vorgehensweise bei der Umsetzung und Datenerfassung dieser Erhebung. Dabei wird auf die vorbereitenden Maßnahmen mit Hinblick auf die Erstellung des Fragebogens und weiterer Befragungsmaterialen sowie die Durchführung des Pretests und der eigentlichen Hauptbefragung eingegangen. Um die Bereitschaft einer Teilnahme zu erhöhen, wurden die Haushalte mittels Vorankündigungsschreiben, Pressemitteilung und Erinnerungsrundgang mehrfach kontaktiert. Außerdem wurde ein Teil der Rücksendeumschläge mit Sonderbriefmarken versehen. Abschließend befasst sich der Bericht mit dem Erhebungsrücklauf, der Dateneingabe und -aufbereitung sowie dem ermittelten Antwortverhalten und der Repräsentativität der Stichprobe.
NKG2D is a potent activating immunoreceptor expressed on nearly all cytotoxic lymphocytes promoting their cytotoxicity against self-cells expressing NKG2D ligands (NKG2DLs). NKG2DLs are MHC class I-like glycoproteins that usually are not expressed on “healthy” cells. Rather, their surface expression is induced by various forms of cellular stress, viral infection, or malignant transformation. Hence, cell surface NKG2DLs mark “dangerous” cells for elimination by cytotoxic lymphocytes and therefore can be considered as “kill-me” signals. In addition, NKG2DLs are up-regulated on activated leukocytes, which facilitates containment of immune responses. While the NKG2D receptor is conserved among mammals, NKG2DL genes have rapidly diversified during mammalian speciation, likely due to strong selective pressures exerted by species-specific pathogens. Consequently, NKG2DL genes are not conserved in man and mice, although their NKG2D-binding domains maintained structural homology. Human NKG2DLs comprise two members of the MIC (MICA/MICB) and six members of the ULBP family of glycoproteins (ULBP1–6) with MICA representing the best-studied human NKG2DLs by far. Many of these studies implicate a role of MICA in various malignant, infectious, or autoimmune diseases. However, conclusions from these studies often were limited in default of supporting in vivo experiments. Here, we report a MICA transgenic (MICAgen) mouse model that replicates central features of human MICA expression and function and, therefore, constitutes a novel tool to critically assess and extend conclusions from previous in vitro studies on MICA. Similarly to humans, MICA transcripts are broadly present in organs of MICAgen mice, while MICA glycoproteins are barely detectable. Upon activation, hematopoietic cells up-regulate and proteolytically shed surface MICA. Shed soluble MICA (sMICA) is also present in plasma of MICAgen mice but affects neither surface NKG2D expression of circulating NK cells nor their functional recognition of MICA-expressing tumor cells. Accordingly, MICAgen mice also show a delayed growth of MICA-expressing B16F10 tumors, not accompanied by an emergence of MICA-specific antibodies. Such immunotolerance for the xenoantigen MICA ideally suits MICAgen mice for anti-MICA-based immunotherapies. Altogether, MICAgen mice represent a valuable model to study regulation, function, disease relevance, and therapeutic targeting of MICA in vivo.
Risk evaluations for agricultural chemicals are necessary to preserve healthy populations of honey bee colonies. Field studies on whole colonies are limited in behavioural research, while results from lab studies allow only restricted conclusions on whole colony impacts. Methods for automated long-term investigations of behaviours within comb cells, such as brood care, were hitherto missing. In the present study, we demonstrate an innovative video method that enables within-cell analysis in honey bee (Apis mellifera) observation hives to detect chronic sublethal neonicotinoid effects of clothianidin (1 and 10 ppb) and thiacloprid (200 ppb) on worker behaviour and development. In May and June, colonies which were fed 10 ppb clothianidin and 200 ppb thiacloprid in syrup over three weeks showed reduced feeding visits and duration throughout various larval development days (LDDs). On LDD 6 (capping day) total feeding duration did not differ between treatments. Behavioural adaptation was exhibited by nurses in the treatment groups in response to retarded larval development by increasing the overall feeding timespan. Using our machine learning algorithm, we demonstrate a novel method for detecting behaviours in an intact hive that can be applied in a versatile manner to conduct impact analyses of chemicals, pests and other stressors.
Metabolites such as lactate and free fatty acids (FFAs) abundantly occur in high concentrations in tumor and stromal cells of solid malignancies. Their known functions comprise the allocation of nutrients and intermediates for the generation of cell components, the evasion of immune destruction, the induction of vessel formation and the stimulation of cell migration in order to promote tumor growth, progression and metastasis. However, the role of metabolites as signaling molecules and the downstream mechanisms of metabolite receptor mediated signaling in tumor and stromal cells is poorly understood. Our study confirms the expression of Hydroxycarboxylic acid receptor 1 (HCA1) in solid human breast tumors and the expression of Free fatty acid receptor 4 (FFA4) in solid human colorectal tumors. In addition, the expression of HCA1 in human breast cancer cell lines as well as the expression of FFA4 in human colorectal cancer cell lines was proved. Moreover, our research reveals the expression HCA2, FFA2 and FFA4 in tumor associated macrophages (TAMs).
To test whether the loss of any of the metabolite receptors affects tumor growth and progression we utilized a syngeneic Lewis lung cancer (LLC1) tumor model, an azoxymethane (AOM) – dextran sulfate (DSS) colorectal cancer model and a Mouse mammary tumor virus Polyoma Virus middle T antigen (MMTV-PyMT) breast cancer model. The loss of HCA2 did not lead to a changed outcome compared to wild type littermates in any of the models. Likewise, the deletion of FFA4 had no influence on the LLC1 model and, surprisingly, tumor number and area in the AOM-DSS model also remained unaltered. The impact of HCA1 deficiency was investigated utilizing the MMTV-PyMT model and revealed a moderately improved tumor growth. The absence of FFA2 did not affect tumor growth in the LLC1 model but led to an increased number of colorectal tumors in the AOM-DSS model while the tumor area remained unchanged. The most compelling results were obtained upon the deletion of FFA2 in the MMTV-PyMT model. Here, we demonstrate that the loss of FFA2 significantly reduces tumor latency and also significantly improves tumor growth. Nevertheless, the formation of metastases in the LLC1 model and the MMTV-PyMT model did not show any changes upon the loss of any of the metabolite receptors.
Together, our results describe a tumor-protective effect of FFA2 with an unclear impact on metastatic processes. Considerations about putative mechanisms of short chain fatty acid (SCFA) mediated FFA2 signaling suggest potential targets for pharmacological interventions to treat mammary tumors.
Article 4 of Protocol No. 4 to the European Convention on Human Rights (ECHR) is short. Its title reads "Prohibition of collective expulsion of aliens", its text reads: "Collective expulsion of aliens is prohibited." It comes as a historical disappointment that the European Court of Human Rights (ECtHR) in its decision in the case N.D. and N.T. v. Spain from 13 February 2020 distorts this clear guarantee to exclude apparently "unlawful" migrants from its protection. The decision is a shock for the effective protection of rights in Europe and at its external borders. Consequently the Guardian titled that the Court is "under fire". Reading the majority opinion is at times a puzzling experience, to say the least.
Connectomic analysis of apical dendrite innervation in pyramidal neurons of mouse cerebral cortex
(2020)
The central goal of this study was to generate synapse-resolution maps of local and long-range innervation on apical dendrites (AD) in mouse cerebral cortex. We used three-dimensional electron microscopy (3D-EM) to first measure the cell-type specific balance in the excitatory and inhibitory input on ADs. Further, we found two inhibitory axon populations with preference for apical dendrites originating from layer 2 and 3/5. Additionally, we used a combination of large-scale volumetric light and electron microscopy to investigate the innervation preference of long-range cortical projections onto ADs. To generate such large-scale 3D-EM datasets, we also developed a software package to automate aberration adjustment.
The balance of excitation and inhibition defines the computational properties of neurons. We, therefore, generated 6 datasets and annotated 26,548 excitatory and inhibitory synapses to map the relative inhibitory strength on the AD of pyramidal neurons in layers 1 and 2 (L1 and 2) of the cortex. We found consistent and cell-type specific patterns of inhibitory strength along the apical dendrite of L2-5 pyramidal neurons in primary somatosensory (S1), secondary visual (V2), posterior parietal (PPC) and anterior cingulate (ACC) cortices. L2 and L5 pyramidal neurons had inhibitory hot-zones at their main bifurcation and distal apical dendrite tuft, respectively. In contrast, L3 neurons had a baseline (~10%) level of inhibition along their apical dendrite. As controls, we quantified the effect of synapse strength (size), dendrite diameter, AD classification and synapse identification methods on the cell-type specific synapse densities. To classify L5 pyramidal subtypes, we performed hierarchical clustering using morphological properties that were described to differentiate slender- and thick-tufted L5 neurons.
We also investigated the distance to soma as a predictor of fractional inhibition around the main bifurcation of apical dendrites. Interestingly, we found a strong exponential relationship that was absent in density of either synapse type. This suggests a distance dependent control mechanism designed specifically for the balance (in synapse numbers) of excitation and inhibition.
Next, we focused on the inhibitory innervation preference for apical dendrite of pyramidal neuron. We, therefore, annotated 5,448 output synapses of AD-targeting inhibitory axons and found two populations specific for either L2 or L3/5 apical dendrites. Together with previous findings on preferential innervation of sub-cellular structures by inhibitory axons, this suggests two distinct inhibitory circuits for control of AD activity in L2 vs. deep-layer pyramidal neurons. This innervation preference was surprisingly consistent across S1, V2, PPC and ACC cortices.
3D-EM data acquisition is a laborious process that is made easier and more popular everyday by technical progress in the laboratory and industrial settings. To make data acquisition robust using our custom-built 3D-EM microscopes, an automatic aberration software was implemented to adjust the objective lens and the stigmators of the electron microscope. This method was used in multiple month-long experiments across 2 microscopes and 10 datasets. The aberration adjustment used the reduction in image details (high-frequency elements) to estimate the level of deviation from optimal focus and stigmator parameters. However, large objects in EM micrographs such as blood vessel and nuclei cross-sections generated anomalous results. We, therefore, added image processing routines based on edge detection combined with morphological operations to exclude such large objects.
Finally, we performed a correlative three-dimensional (3D) light (LM) and electron (EM) microscopy experiment to map the long-range primary visual (V1) and secondary motor (M2) cortical input to ADs in layer 1 of PPC using the “FluoEM” approach. This method allows for identification of the long-range source of projection axons in EM volumes without the need for EM-dense label conversion or heat-induced markings. The long-range source of an axon in EM is identified based on the fluorescent protein that is expressed in its LM counterpart. In comparison to M2 input, Long-range axons from V1 had a higher tendency to target L3 pyramidal neurons in PPC according to our preliminary analysis. In combination with the difference observed in the synapse composition of L2 and L3 apical dendrites, this suggests the need for separate functional and structural analysis of L2 and 3 pyramidal neurons.
Bacteria constantly attempt to hold up ion gradients across their membranes to maintain their resting potential for routine cell function, while coping with sudden environmental changes. Under abrupt hyperosmotic conditions, as faced when invading a host, most bacteria restore their turgor pressure by taking up potassium ions to prevent death by plasmolysis. Here, the potassium transporter AB, or KtrAB for short, is a key player. KtrAB consists of the membrane-embedded KtrB dimer, which includes two pores organized in tandem, and a cytoplasmic, octameric KtrA ring, which regulates these two pores. The KtrB subunits alone were suggested to function as rather non-selective ion channels translocating potassium and sodium ions. The KtrA subunits confer transport velocity, K+ selectivity as well as Na+ and nucleotide dependency to the Ktr system. The nucleotide regulation by binding to KtrA is rather well characterized. In contrast, the regulatory role of Na+ remains elusive. Controversially discussed is how selective the ion translocation by KtrB is and how KtrA affects it. Although there are several functional and structural data available of KtrAB and its homolog TrkAH, the selectivity of the ion translocation was never thoroughly addressed. The functional characterization of whether KtrAB is a selective ion channel and how selectivity is achieved is in the focus of this thesis. Since selectivity is usually defined by the ion channels’ selectivity filter contained in the pore-forming domain, a particular attention was laid on the ion-translocating subunits KtrB.
KtrB belongs to the superfamily of K+ transporters (SKT). Each KtrB monomer consists of four covalently attached M1-P-M2 motifs, each motif is made of two transmembrane (TM or M) helices that are connected by a pore (P) helix. The four motifs, referred to as domains D1 to D4, are arranged in a pseudo-fourfold symmetry and together form the pore for potassium ion translocation. Each pore contains two structural features thought to be involved in ion selectivity and ion gating. These are the non-canonical selectivity filter and the intramembrane loop. The selectivity filter is localized at the extracellular side of the pore and mostly shaped by the backbone carbonyl groups of the loops connecting the P and M2 helices in each domain. In KtrB, each P-loop contains only one highly conserved glycine residue instead of the classical -TVGYG- signature sequence of a K+ channel. This simple constructed selectivity filter led to the hypothesis that KtrAB would only have low ion selectivity. The intramembrane loop is formed by broken helix D3M2 and is located directly under the selectivity filter. It consists mostly of polar residues and acts as a molecular gate restricting ion fluxes. The intramembrane loop has been shown to be regulated by nucleotide binding to KtrA. Additionally, it could directly or indirectly be affected by Na+ binding. Further, the loop might even be involved in ion selectivity because it presents a physical barrier inside the pore.
To address the ion selectivity of the Ktr system, first, the ion binding specificity of KtrB was investigated. Binding affinities of different cations to KtrB were determined using isothermal titration calorimetry (ITC). For this, KtrB from Vibrio alginolyticus was heterologously produced in and purified from Escherichia coli. 12 L of culture roughly yielded 4 to 8 mg of the functional KtrB dimer in detergent solution. ITC measurements were performed in two different buffers, one choline-Cl-based and one LiCl-based buffer. No differences in the affinity between Na+ (KD = 1.8 mM), K+ (KD = 2.9 mM), Rb+ (KD = 1.9 mM) or Cs+ (KD = 1.6 mM) were detected in the choline-Cl-based buffer; only Li+ did not bind. In contrast, ITC measurements in LiCl-based buffer revealed a significant preference for K+ (KD = 91 µM) over Rb+ (KD = 2.4 mM), Cs+ (KD = 1.7 mM) and particularly Na+ (for which no binding was observed). Similarly, the presence of low millimolar NaCl concentrations in the choline-Cl-based buffer led to a decreased KD value of 260 µM. Hence, small cations, which usually are present in the natural environment, seem to modulate the selectivity filter for a better binding of K+ ions providing K+ selectivity. In fact, the low binding affinities of the other ions could indicate that they do not even bind to the selectivity filter but to the cavity. However, ITC competition experiments showed that all four ions compete for the same or overlapping binding sites, with Rb+ and Cs+ even blocking K+ binding at concentrations 10-fold above their binding affinities. Importantly, at physiological NaCl concentrations of 200 mM, the apparent binding affinity for K+ to KtrB was still 3.5 mM. This suggested that Na+ can also bind to KtrB’s selectivity filter but with a comparably low binding affinity providing an unexpectedly high preference for K+ ions.
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