3,379 research outputs found

    Induction and regulation of antiviral defence mechanisms through intracytoplasmic sensors

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    Das Wechselspiel zwischen Viren und ihren Wirtszellen beginnt meist an pattern recognition-Rezeptoren (PRRs), die für die Erkennung unterschiedlichster Pathogene anhand bestimmter Strukturen, sogenannten pathogen-associated molecular patterns (PAMPs), zuständig sind. Nach Detektion lösen die PRRs über verschiedene Signalkaskaden eine antivirale Antwort aus, die zur Expression antiviraler Gene führt. RIG-I und MDA5 sind zytoplasmatisch lokalisierte PRRs und erkennen RNA-Strukturen, die insbesondere während der viralen Replikation und Transkription verfügbar sind. Hantaviren sind humanpathogene RNA-Viren mit einem einzelsträngigen, segmentierten Genom. Die Konsequenzen hantaviraler Infektionen auf molekularer Ebene wurden bereits detailliert untersucht, aber die Mechanismen, die zur Induktion der Immunantwort führen, wie auch mögliche Immunevasionsstrategien, die wahrscheinlich in Zusammenhang mit der Pathogenität des jeweiligen Hantavirusstamms variieren, konnten bisher nicht identifiziert werden. Da Hantaviren im Cytoplasma ihrer Wirtszellen replizieren, stellen RIG-I und MDA5 potentielle Detektoren dar. In dieser Doktorarbeit wird die Bedeutung von RIG-I und MDA5 für die Erkennung von Hantavirus-Infektionen untersucht. Wachstumskinetiken zeigten, daß RIG-I die Replikation von pathogenen wie auch apathogenen Hantaviren beeinträchtigt. Außerdem konnte die RNA hantaviraler Nukleocapsid- (N-) ORFs als eine virale Komponente identifiziert werden, die Typ I Interferon über RIG-I induziert. Das Ausmaß der Interferon-Aktivierung korrelierte hierbei tendenziell mit dem Virulenzgrad der Virusstämme und war für die nicht-pathogenen Hantaviren nicht nachweisbar. Unterschiede in der Aktivierungsstärke können anhand vorläufiger Daten wahrscheinlich auf noch nicht identifizierte Motive zurückgeführt werden, die am 3’-Ende der N ORFs liegen. Im Gegensatz dazu wurde keine Interferon-Aktivierung durch hantavirale Komponenten über MDA5 festgestellt.Host-virus interaction is usually initated by pattern recognition receptors (PRRs) which are responsible for the recognition of various pathogens based on so-called pathogen-associated molecular patterns (PAMPs). Upon detection, PRRs trigger an antiviral immune response through different signalling cascades that lead to the expression of antiviral genes including interferon genes. RIG-I and MDA5 are cytoplasmically localised PRRs and recognise RNA patterns that are particularly available during viral replication and transcription. Hantaviruses are RNA viruses with single-stranded segmented genomes. The consequences of hantaviral infections have been analysed in detail, but the mechanisms that lead to the induction of the innate immune response as well as immune evasion strategies depending on the pathogenicity of the respective hantavirus strains have not been identified yet. Since hantaviruses replicate in the cytoplasm of their host cells, RIG-I and MDA5 represent potential PRRs for hantaviral detection. This thesis investigates the impact of RIG-I and MDA5 on recognition of hantaviral infections. Growth kinetics show that RIG-I impairs the replication of pathogenic as well as non-pathogenic hantaviruses. Furthermore, the RNA of hantaviral nucleocapsid protein (N) ORF could be identified as a viral component responsible for the induction of RIG-I signalling. It is shown that the degree of interferon promotor activation correlates with the virulence of the hantavirus strain from which the N ORF was derived. Based on preliminary data, differences in activation strength may be attributed to not yet identified motifs at the 3’ end of the ORF. In contrast, no interferon activation through MDA5 could be observed

    Reactive oxygen species as glucose signaling molecules in mesangial cells cultured under high glucose

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    Reactive oxygen species as glucose signaling molecules in mesangial cells cultured under high glucose.BackgroundOxidative stress is one of the important mediators of vascular complications in diabetes including nephropathy. High glucose (HG) generates reactive oxygen species (ROS) as a result of glucose auto-oxidation, metabolism, and formation of advanced glycosylation end products. The concept of ROS-induced tissue injury has recently been revised with the appreciation of new roles for ROS in signaling pathways and gene expression.Methods and Results. High glucose rapidly generated dichlorofluorescein-sensitive cytosolic ROS in rat and mouse mesangial cells. Neither L-glucose nor 3-O-methyl-D-glucose increased cytosolic ROS and cytochalasin B, an inhibitor of glucose transporter, effectively inhibited HG-induced ROS generation, suggesting that glucose uptake and subsequent metabolism are required in HG-induced cytosolic ROS generation. H2O2 up-regulated fibronectin mRNA expression and protein synthesis; this up-regulation was effectively inhibited by protein kinase C (PKC) inhibitor or by depletion of PKC. The HG-induced generation of ROS was, in turn, related to activation of PKC and transcription factors nuclear factor-κ;B (NF-κ;B) and activator protein-1 (AP-1) as well as to the up-regulation of transforming growth factor-β1 (TGF-β1), fibronectin mRNA expression and protein synthesis, because antioxidants effectively inhibited HG-induced PKC, NF-κ;B, AP-1 activation, and TGF-β1 and fibronectin expression in mesangial cells cultured under HG.ConclusionsAlthough signal transduction pathways linking HG, ROS, PKC, transcription factors, and extracellular matrix (ECM) protein synthesis in mesangial cells have not been fully elucidated, the current data provide evidence that ROS generated by glucose metabolism may act as integral signaling molecules under HG as in other membrane receptor signaling

    Environmental Regulations in Private and Mixed Duopolies: Emission Taxes versus Green R&D Subsidies

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    In the presence of R&D spillovers, we compare environmental regulations between an emission taxes and green R&D subsidies in private and mixed duopoly markets. We show that the green R&D subsidy is better (worse) than the emission tax when the green R&D cost is low (high) irrespective of the R&D spillovers, whereas the existence of a public firm encourages the government to adopt the subsidy policy. We then show that the optimal policy choice depends on the level of the R&D cost and the degree of R&D spillovers. In particular, when the R&D cost is high and the spillover rate is (not) weak, the government should choose the emission tax and (not) privatize the public firm. However, when the R&D cost is low, such a privatization policy is not desirable to society irrespective of the R&D spillovers

    Comparing Results of Five Glomerular Filtration Rate-Estimating Equations in the Korean General Population. MDRD Study, Revised Lund-Malmö, and Three CKD-EPI Equations

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    Estimated glomerular filtration rate (eGFR) is a widely used index of kidney function. Recently, new formulas such as the Chronic Kidney Disease Epidemiology Collaboration (CKD-EPI) equations or the Lund-Malmö equation were introduced for assessing eGFR. We compared them with the Modification of Diet in Renal Disease (MDRD) Study equation in the Korean adult population. METHODS: The study population comprised 1,482 individuals (median age 51 [42-59] yr, 48.9% males) who received annual physical check-ups during the year 2014. Serum creatinine (Cr) and cystatin C (CysC) were measured. We conducted a retrospective analysis using five GFR estimating equations (MDRD Study, revised Lund-Malmö, and Cr and/or CysC-based CKD-EPI equations). Reduced GFR was defined as eGFR <60 mL/min/1.73 m². RESULTS: For the GFR category distribution, large discrepancies were observed depending on the equation used; category G1 (≥90 mL/min/1.73 m²) ranged from 7.4-81.8%. Compared with the MDRD Study equation, the other four equations overestimated GFR, and CysC-based equations showed a greater difference (-31.3 for CKD-EPI(CysC) and -20.5 for CKD-EPI(Cr-CysC)). CysC-based equations decreased the prevalence of reduced GFR by one third (9.4% in the MDRD Study and 2.4% in CKD-EPI(CysC)). CONCLUSIONS: Our data shows that there are remarkable differences in eGFR assessment in the Korean population depending on the equation used, especially in normal or mildly decreased categories. Further prospective studies are necessary in various clinical settings
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