26 research outputs found
Kiri parun de Gleiner'ile(?)
Moltke, Helmut Karl Bernhard von, 1800-1891, preisi feldmarssalFanny Elssleri tantsuetenduse kĆ¼lastamises
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Suicidal Cells and Lipid Storms: Mechanisms and Consequences of Cytokineāindependent Inflammasome Activation
To protect against infectious disease, the innate immune system must mount a rapid response that distinguishes between self and non-self, and between pathogen and harmless commensal. Invasion of the host cell cytosol, either directly or through the injection of effector proteins, is a uniquely pathogen-associated event. Therefore, the innate immune system includes numerous cytosolic sensors to detect foreign molecules or the disruption of intracellular homeostasis. Among these sensors is the NBDāLRR family of proteins, which oligomerize into large complexes called āinflammasomesā, and serve as a molecular platform for the activation of the protease CASPASEā1. The outcome of innate sensing in the cytosol is determined by the downstream effector functions of each pathway. In most cases, this occurs through the transcriptional induction of effector proteins, such as inflammatory and chemotactic cytokines. In contrast, inflammasome effector functions are carried out by CASPASEā1 in the absence of de novo transcription or translation, making inflammasome activation one of the most rapid innate signaling responses. Experiments in mice deficient for CASPASEā1 or other inflammasome components, have revealed the importance of inflammasome activation in restricting bacterial pathogens in vivo. Bacterial restriction is achieved by the effector functions of CASPASEā1, the best characterized of which are the processing and secretion of the inflammatory cytokines ILā1Ī² and ILā18, and the induction of a lytic cell death called pyroptosis. The relative contribution of CASPASEā1 effector functions to immunity varies depending on the disease model; however, in several cases inflammasome-dependent protection is completely retained in ILā1Ī²/ILā18ā/ā mice, suggesting cytokine-independent inflammasome functions. In this dissertation I explore the molecular mechanisms that regulate cytokine-independent inflammasome activity, and describe a novel CASPASEā1 effector function in vivo. The dissertation begins with an overview of inflammasome activation and function, highlighting some of the important areas for future research. Next, I describe a full-genome siRNA screen we undertook to identify novel proteins required for inflammasome signaling, and in particular for pyroptosis. Although the screen led to the unbiased identification of known inflammasome components, all novel candidate genes failed to validate after further analysis. Perhaps this negative result indicates a functional redundancy among the CASPASEā1 substrates required for pyroptosis. In chapter 3, we examine how autoproteolysis determines the effector functions of CASPASEā1. We show that a non-cleavable allele of CASPASEā1 retains the ability to initiate pyroptosis, but fails to process IL-1Ī²/ILā18. This finding explains the previous observation that in the absence of the inflammasome adaptor protein ASC, inflammasome activation leads to cell death without release of cytokines. Furthermore, we show that pyroptosis and cytokine processing can be initiated from spatially and structurally distinct inflammasome complexes, suggesting a mechanism for tuning the outcome of CASPASEā1 activation. In chapter 4, we identify a novel CASPASEā1 effector function using an in vivo model of inflammasome activation. We show that systemic cytosolic delivery of flagellin, a potent inflammasome agonist, leads to massive vascular fluid loss and can kill mice in less than 30 minutes. This unexpected response is dependent on CASPASEā1, but independent of ILā1Ī² and ILā18. Instead, CASPASEā1 activation leads to a cellular calcium influx that triggers the biosynthesis of eicosanoids ā a family of inflammatory lipids that includes the prostaglandins and leukotrienes. Mice deficient in COXā1, an enzyme required for synthesis of prostaglandins, are resistant to the rapid pathology caused by inflammasome activation. Our findings therefore link the rapid sensing capacity of inflammasomes to the potent activity of eicosanoids. Activated within minutes, this pathway represents one of the most rapid cellular innate immune responses described to date, and suggests a model for the initiation of inflammation at the site of infection. In the 5th and final chapter, I discuss this model and other emerging themes in inflammasome research, highlighting several mouse models I have developed to uncover additional inflammasome functions in vivo. Although to date the emphasis has been on ILā1Ī² and ILā18, the findings reported in this dissertation highlight how much there is to learn about the cytokineāindependent functions of inflammasomes
Briefe Ć¼ber ZustƤnde und Begebenheiten in der TĆ¼rkei aus den Jahren 1835 bis 1839
von Helmuth von Moltk
Carta topografica di Roma e dei suoi contorni fino alla distanza di 10 miglia fuori le mura, indicante tutti i siti ed edifizii moderni ed i ruderi antichi ivi esistenti : eseguita coll'appoggio delle osservazioni astronomiche e per mezzo della mensola delineata sulla proporzione di 1:25 000 / negli anni 1845 a 1846
dal Barone di Moltke ajutante di campo di S.A. Reale il Principe Enrico di Prussia a Roma :in Schube
MilitÄrische Werke.
Each part has both general and special t.p.Mode of access: Internet