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We derive the relation between cumulants of a conserved charge measured in a subvolume of a thermal system and the corresponding grand-canonical susceptibilities, taking into account exact global conservation of that charge. The derivation is presented for an arbitrary equation of state, with the assumption that the subvolume is sufficiently large to be close to the thermodynamic limit. Our framework – the subensemble acceptance method (SAM) – quantifies the effect of global conservation laws and is an important step toward a direct comparison between cumulants of conserved charges measured in central heavy ion collisions and theoretical calculations of grand-canonical susceptibilities, such as lattice QCD. As an example, we apply our formalism to net-baryon fluctuations at vanishing baryon chemical potentials as encountered in collisions at the LHC and RHIC.
Cet article cherche à rapprocher les pensées de Louis Althusser et de Theodor W. Adorno autour de trois grandes questions : le primat de la théorie, la théorie de la société et de l’histoire, et la critique du sujet. Dans chaque cas, il s’agit de mettre en évidence les points communs entre les deux penseurs tout en soulignant leur désaccord fondamental en ce qui concerne la manière dont chacun se rapporte à la philosophie de Hegel. Là où Althusser vise à repenser le marxisme sur des bases non hégéliennes, Adorno veut au contraire revenir à Hegel pour ressourcer le marxisme en temps de crise.
Sphingosine 1-phosphate (S1P) signaling influences numerous cell biological mechanisms such as differentiation, proliferation, survival, migration, and angiogenesis. Intriguingly, our current knowledge is based solely on the role of S1P with an 18-carbon long-chain base length, S1P d18:1. Depending on the composition of the first and rate-limiting enzyme of the sphingolipid de novo metabolism, the serine palmitoyltransferase, other chain lengths have been described in vivo. While cells are also able to produce S1P d20:1, its abundance and function remains elusive so far. Our experiments are highlighting the role of S1P d20:1 in the mouse central nervous system (CNS) and human glioblastoma. We show here that S1P d20:1 and its precursors are detectable in both healthy mouse CNS-tissue and human glioblastoma. On the functional level, we focused our work on one particular, well-characterized pathway, the induction of cyclooxygenase (COX)-2 expression via the S1P receptor 2 (S1P2). Intriguingly, S1P d20:1 only fairly induces COX-2 expression and can block the S1P d18:1-induced COX-2 expression mediated via S1P2 activation in the human glioblastoma cell line LN229. This data indicates that S1P d20:1 might act as an endogenous modulator of S1P signaling via a partial agonism at the S1P2 receptor. While our findings might stimulate further research on the relevance of long-chain base lengths in sphingolipid signaling, the metabolism of S1P d20:1 has to be considered as an integral part of S1P signaling pathways in vivo.
This article is directed towards addressing the employment related issues encountered by female workers in the gig economy in the EU. It revolves around analysing ‘the switch’ from the traditional labour market to the platform economy. It subsequently explains, by drawing comparisons, that the issues of gender inequality in the brick and mortar world are still prevalent in world of the digital platform. In fact, new challenges have emerged which are specifically related to the gig economy. Female workers are now affected by the inherent bias of algorithms. Moreover, due to the unequivocal propagation of ‘flexibility’ which is used as a weapon to glorify the gig economy; women are even more likely to be pushed into precarious work. The other prominent issues of gender inequality like the dynamics of intersectionality, the gender pay gap and hiring policies in traditional and digital platforms are also examined. Furthermore, the existing regulatory frameworks addressing these issues are discussed with the possibility of catering to the gender inequality issues in the gig economy through policy development. The article concludes with a reflection on the need for the EU to take immediate and efficacious policy measures in respect of female workers in the gig economy.
Motivated by the question of whether and how wave–wave interactions should be implemented into atmospheric gravity-wave parametrizations, the modulation of triadic gravity-wave interactions by a slowly varying and vertically sheared mean flow is considered for a non-rotating Boussinesq fluid with constant stratification. An analysis using a multiple-scale WKBJ (Wentzel–Kramers–Brillouin–Jeffreys) expansion identifies two distinct scaling regimes, a linear off-resonance regime, and a nonlinear near-resonance regime. Simplifying the near-resonance interaction equations allows for the construction of a parametrization for the triadic energy exchange which has been implemented into a one-dimensional WKBJ ray-tracing code. Theory and numerical implementation are validated for test cases where two wave trains generate a third wave train while spectrally passing through resonance. In various settings, of interacting vertical wavenumbers, mean-flow shear, and initial wave amplitudes, the WKBJ simulations are generally in good agreement with wave-resolving simulations. Both stronger mean-flow shear and smaller wave amplitudes suppress the energy exchange among a resonantly interacting triad. Experiments with mean-flow shear as strong as in the vicinity of atmospheric jets suggest that internal gravity-wave dynamics are dominated in such regions by wave modulation. However, triadic gravity-wave interactions are likely to be relevant in weakly sheared regions of the atmosphere.
With the emergence of immunotherapies, the understanding of functional HLA class I antigen presentation to T cells is more relevant than ever. Current knowledge on antigen presentation is based on decades of research in a wide variety of cell types with varying antigen presentation machinery (APM) expression patterns, proteomes and HLA haplotypes. This diversity complicates the establishment of individual APM contributions to antigen generation, selection and presentation. Therefore, we generated a novel Panel of APM Knockout Cell lines (PAKC) from the same genetic origin. After CRISPR/Cas9 genome-editing of ten individual APM components in a human cell line, we derived clonal cell lines and confirmed their knockout status and phenotype. We then show how PAKC will accelerate research on the functional interplay between APM components and their role in antigen generation and presentation. This will lead to improved understanding of peptide-specific T cell responses in infection, cancer and autoimmunity.
Cancer is the major cause of death besides cardiovascular disease. Leukaemia represents the most prevalent malignancy in children with a frequency of 30 % and is one of the ten leading types of cancer in adults. Philadelphia Chromosome-positive B-ALL (Ph+ B-ALL) is driven by the cytogenetic aberration of the reciprocal chromosomal translocation t(9;22)(q34;q11) leading to the formation of the Philadelphia chromosome with a BCR-ABL1 fusion gene. This fusion gene encodes a BCR-ABL1 oncoprotein which is characterized by a constitutively enhanced tyrosine kinase activity promoting amplified proliferation, differentiation arrest and resistance to cell death. Ph+ B-ALL is considered the most aggressive ALL subtype with a long-term survival rate in the range of only 30 % despite intensive standard of care including chemotherapy in combination with a tyrosine kinase inhibitor (TKI) followed by allogeneic stem cell transplantation after remission for clinically fit patients.
The efficacy of chemotherapy has long been mainly attributed to tumour cell toxicity while immune modulating effects have been overlooked, especially in light of known immunosuppressive properties. Accumulative evidence, however, emphasizes the ability of chemotherapeutic agents, including TKIs, to normalise or re-educate a dysfunctional tumour microenvironment (TME) resulting in enhanced anti-tumour immunity. One of the underlying mechanisms of immune modulation is the induction of immunogenic cell death (ICD). ICD is an anti-tumour agent-induced cell death modality determined by the capacity to convert cancer cells into anti-cancer vaccines. The induction of ICD relies on the release of damage-associated molecular patterns (DAMPs) from dying tumour cells succumbing to ICD. Translocation of CALR to the cell surface, extracellular secretion of ATP and release of HMGB1 from the nucleus are key hallmarks of ICD that mediate anti-tumour immunity upon binding to antigen presenting cells resulting in a tumour antigen-specific immune response. Besides these molecular determinants, ICD is functionally defined by the inhibition of tumour growth in a vaccination assay in which mice are injected with tumour cells exposed to the potential ICD inducer in-vitro and then re-challenged with live tumour cells of the same cancer type. Both molecular and functional criteria determine the gold standard approach to assess ICD. By increasing the immunogenicity of cancer cells, ICD contributes to the restoration of immunosurveillance as an essential feature of tumour rejection, which is clinically reflected by improved therapeutic efficacy and disease outcome in patients. Therefore, identifying novel ICD inducers is an objective of interest in the context of cancer therapy.
In respect of these considerations, the aim addressed in the present work is the examination of the second-generation TKI Nilotinib for the ability to induce ICD. The thesis is set in the context of the group's research on the role of Gas6/TAM signalling within the TME regarding the pathogenesis of acute leukaemia. In in-vivo experiments of our research group it has been consistently observed that the use of Nilotinib enhances the anti-leukaemic immunity mediated by a deletion of Gas6. Against the background of increasing importance of chemotherapeutic agents as potent modulators of a dysregulated TME, it was hypothesized that Nilotinib may synergize with a Gas6-deficient environment by inducing ICD in Ph+ B-ALL cells.
In growth inhibition and Annexin V/Propidium iodide cell death assays Nilotinib was shown to induce cell death in concentration-dependent manner that occurs bimodally in terms of cell death modality ranging between apoptosis and necrosis. By ICD marker analysis, comprising flow-cytometric detection of CALR exposure, chemoluminescence-based ATP measurement and immunoblotting for HMGB1, it was found that Nilotinib-induced cell death is not accompanied by CALR exposure and ATP secretion, but is associated with the release of HMGB1. In macrophages co-culture experiments with Nilotinib-treated leukaemic cells, no relevant shift in terms of macrophages activation and polarisation was observed in either a juxtacrine or paracrine setup. In consistency with the results obtained in the in-vitro experiments, Nilotinib was not potent to elicit a protective immune response in mice within a vaccination assay.
Conclusively, Nilotinib was identified to not qualify as bona fide ICD inducer. The role of Nilotinib-induced cell death and HMGB1 release are proposed as objective for further investigation concerning the synergistic interplay between Nilotinib and a Gas6-deficient environment. Efforts addressing exploration and optimisation of the immunological potential of chemotherapeutic agents are a promising approach aimed at providing cancer patients with the best possible treatment in future.
Während hohe Spiegel von reaktiven Sauerstoffspezies (reactive oxygen species, ROS) in Form von oxidativem Stress schädliche Auswirkungen auf den Körper haben können, zeigen aktuelle Forschungsarbeiten, dass Redox-Modifikationen an Thiolresten von Proteinen reversible Signalprozesse steuern können. Dieses Prinzip der posttranslationalen Proteinmodifikation durch Redox-Signale scheint auch bei der Verarbeitung und Chronifizierung von Schmerzen von Bedeutung zu sein. Über die potenziellen Redox-modulierten Zielstrukturen im nozizeptiven System ist jedoch bisher nur wenig bekannt.
Ein potentielles Redoxtarget im nozizeptiven System ist das kleine EF-Hand Ca2+-bindende Protein S100A4. Wie die anderen Familienmitglieder der S100-Proteinfamilie enthält S100A4 Cysteinreste, die in der Lage sind, redoxabhängig modifiziert zu werden. Studien an menschlichen Biopsien nach Gehirnverletzungen und an Mäusen in Verletzungsmodellen konnten zeigen, dass S100A4 neuroprotektiv wirkt. Darüber hinaus kann S100A4 sezerniert werden und vermittelt extrazellulär insbesondere regulatorische Funktionen innerhalb der Angiogenese, bei der Zellmigration sowie bei zellulären Differenzierungsprozessen. Die Funktionen von S100A4 im nozizeptiven System sind jedoch weitgehend unbekannt. In Vorarbeiten zu diesem Projekt wurde in einem Proteom-Screen beobachtet, dass S100A4 nach einer peripheren Nervenverletzung redoxabhängig im verletzten Nervengewebe hochreguliert wird. Darauf basierend wurde im Rahmen dieser Arbeit die Lokalisation von S100A4 innerhalb des nozizeptiven Systems sowie die funktionelle Bedeutung nach peripherer Nervenverletzung genauer untersucht.
Anhand von Immunfluoreszenzaufnahmen konnte gezeigt werden, dass S100A4 basal in Subpopulationen Peripherin- und NF200-positiver sensorischer Neurone lokalisiert ist. Interessanterweise führt eine Nervenverletzung nicht nur zu einer deutlichen Steigerung der S100A4-Expression im Bereich der Verletzungsstelle, sondern auch zu einer Änderung des neuronalen Verteilungsmusters. Die funktionelle Bedeutung von S100A4 für die Verarbeitung von Schmerzen wurde anhand von Verhaltenstests an Mäusen näher charakterisiert. Dafür wurden gewebsspezifische S100A4 Knockout Mäuse (Adv-S100A4-/-) und globale S100A4 Knockout Mäuse (S100A4-/-) generiert. In Modellen der akuten Nozizeption zeigten sowohl Adv-S100A4-/- als auch S100A4-/- Mäuse eine normale Reaktion auf thermische und mechanische Stimuli. Im „Spared Nerve Injury“ (SNI) Modell für periphere Neuropathien zeigten die S100A4-/- Mäuse eine im Vergleich zu wildtypischen (WT) Mäusen signifikant reduzierte mechanische Hyperalgesie, während bei den gewebsspezifischen Adv-S100A4-/- Mäusen kein verändertes Schmerzverhalten beobachtet werden konnte. Im „Crush Injury“ Modell für periphere Neuropathien war die mechanische Hyperalgesie der S100A4-/- Mäuse im Vergleich zu WT Tieren jedoch nicht verändert. Zusätzlich zur mechanischen Hyperalgesie wurden auch weitere Methoden der Quantifizierung des Schmerzverhaltens (Sciatic Functional Index, Brush Test und Wühlverhalten) etabliert. Allerdings war auch hier das Verhalten der S100A4-/- Mäuse mit dem der WT Mäuse vergleichbar. Darüber hinaus war das durch Applikation eines ROS-Donors induzierte nozizeptive Verhalten von S100A4-/- und WT Mäusen ähnlich. Man kann daher schlussfolgern, dass nach einer peripheren Nervenverletzung die S100A4-Expression insbesondere im Bereich der Verletzungsstelle hochreguliert wird. Dem gegenüber scheint S100A4 jedoch für die Schmerzverarbeitung funktionell nur von untergeordneter Bedeutung zu sein.
Ein weiteres potentielles Redoxtarget im nozizeptiven System ist die lösliche Epoxidhydrolase (soluble epoxide hydrolase, sEH). Die funktionelle Bedeutung von sEH für die Schmerzverarbeitung wurde bereits in früheren Studien belegt, da eine Behandlung mit sEH-Inhibitoren bei Ratten zu einer reduzierten Hypersensitivität in inflammatorischen und neuropathischen Schmerzmodellen führte. Während die analgetische Wirkung von sEH-Inhibitoren bereits gut bekannt ist, wurde eine redoxabhängige Modulation der sEH-Aktivität im nozizeptiven System in bisherigen Forschungsarbeiten kaum untersucht. Bestimmte Elektrophile können die sEH inhibieren, indem sie an das redoxaktive Cystein an Position 521 der sEH binden. Forschungsarbeiten konnten in diesem Zusammenhang bereits zeigen, dass die Cys521-vermittelte Inhibition von sEH durch das Prostaglandin 15d-PGJ2 oder 9-/10-Nitrooleonsäure (NO2-OA) im kardiovaskulären System zu einer Dilatation der Koronargefäße und einer Reduktion des Blutdrucks führt. Im Rahmen dieser Arbeit wurde untersucht, ob es durch eine redoxabhängige Hemmung der sEH-Funktion auch innerhalb des nozizeptiven Systems zu einer veränderten Schmerzreaktion bei Mäusen kommt. Um diese Fragestellung beantworten zu können, wurden sEH-Knockin (sEH-KI) Mäuse verwendet, deren redox-sensitives Cystein 521 durch ein Serin ersetzt wurde. Bei diesen Knockin-Mäusen können Elektrophile wie 15d-PGJ2 oder 9-/10-NO2-OA keine Enzyminhibition erzeugen. Die Charakterisierung der sEH-KI Mäuse zeigte sowohl in akuten als auch inflammatorischen Schmerzmodellen (Formalin Test und Zymosan-Pfotenentzündungsmodell) keinen Zusammenhang der Redoxmodifikation mit dem Schmerzverhalten der Mäuse. Auch in neuropathischen und viszeralen Schmerzmodellen (SNI-Modell und Modell der Zymosan-induzierten Peritonitis) konnte kein verändertes Schmerzverhalten der sEH-KI-Mäuse im Vergleich zu Kontrolltieren beobachtet werden. Darüber hinaus war das nozizpetive Verhalten nach Applikation von 15d-PGJ2 bei sEH-KI und WT Mäusen vergleichbar. Die redoxabhängige Modulation der sEH an Cystein 521 scheint demnach, im Gegensatz zum kardiovaskulären System, im nozizeptiven System keine Rolle zu spielen.
The current pandemic situation caused by the Betacoronavirus SARS-CoV-2 (SCoV2) highlights the need for coordinated research to combat COVID-19. A particularly important aspect is the development of medication. In addition to viral proteins, structured RNA elements represent a potent alternative as drug targets. The search for drugs that target RNA requires their high-resolution structural characterization. Using nuclear magnetic resonance (NMR) spectroscopy, a worldwide consortium of NMR researchers aims to characterize potential RNA drug targets of SCoV2. Here, we report the characterization of 15 conserved RNA elements located at the 5′ end, the ribosomal frameshift segment and the 3′-untranslated region (3′-UTR) of the SCoV2 genome, their large-scale production and NMR-based secondary structure determination. The NMR data are corroborated with secondary structure probing by DMS footprinting experiments. The close agreement of NMR secondary structure determination of isolated RNA elements with DMS footprinting and NMR performed on larger RNA regions shows that the secondary structure elements fold independently. The NMR data reported here provide the basis for NMR investigations of RNA function, RNA interactions with viral and host proteins and screening campaigns to identify potential RNA binders for pharmaceutical intervention.