Annexin A2 and Protein p11 in Endotoxemia and Sepsis
Weill Medical Coll Of Cornell Univ, New York NY
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Abstract
DESCRIPTION (provided by applicant): The overall goal of this project is to elucidate the role of the profibrinolytic annexin A2 (A2) system in the host response to sepsis, a disorder that causes more than 200,000 deaths annually in the U.S. This application is based upon the observations that, compared to A2+/+ mice, A2-/- mice have remarkably prolonged survival following intraperitoneal administration of lipopolysaccharide or the cecal ligation and puncture model of polymicrobial sepsis. In preliminary studies, we have found that while A2-/- mice have greater accumulations of microvascular fibrin during endotoxemia, they have unexpectedly reduced levels of tissue inflammation, despite extremely elevated levels of the pro-inflammatory cytokines interferon? (IFN?) and interleukin-1ß. We have shown, moreover, that IFN? specifically enhances synthesis of the A2 binding protein, p11, thereby increasing translocation of the (A2?p11)2 complex to the cell surface. Based upon these preliminary data, we have developed four specific aims. In Aim 1, we will determine whether resistance to endotoxemia and to polymicrobial sepsis in A2-/- mice reflects attenuated vascular fibrinolytic activity. In Aim 2, we will define the role of IFN? and related cytokines in regulating endothelial cell surface A2 system-related fibrinolytic activity in vivo, and will define the roles of A2 and p11 in regulating inflammatory cell activation. In Aim 3, we will delineate whether and how the A2 system affects lipopolysaccharide-toll-like receptor signaling, caspase-1-induced pyroptotic cell death, and inflammasome activation. Aim 4 will focus on human sepsis syndromes with experiments designed to elucidate the expression level and activity of the A2 and p11 in human subjects with sepsis, and to determine whether plasma from sepsis patients regulates cellular A2 system activity and in a cytokine-dependent manner. Ultimately, we hope to elucidate the role of the endothelial cell annexin A2 system in the innate host response to sepsis, to determine whether the A2/p11 is a key modulator of the systemic response to sepsis, and to establish the theoretical groundwork that might support A2/p11- targeted therapies for this disorder.
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