Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0036690 (sepsis)
 59,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The systemic inflammatory response that occurs in the septic patient as a result of an infectious insult affects multiple organs and systems, causing numerous physiological derangements. Alterations in phagocytic, lymphocytic and endothelial cell function and immune regulation are evident, leading to heterogeneity in a host's response to a septic challenge. In addition, the normal hemostatic balance shifts toward a procoagulant state through alterations in tissue factor, antithrombin, protein C and the inhibition of fibinolysis, which can result in thrombus formation and paradoxical hemostatic failure. In an effort to diagnose sepsis and predict outcomes, biomarkers such as C-reactive protein, pro-calcitonin, pro- and anti-inflammatory cytokines have been investigated with varying results. Targeted therapies for sepsis, most notably Xigris (recombinant human activated protein C), have proven unsuccessful and treatment continues to remain reliant on source control, antibiotics and supportive interventions, specifically early goal-directed therapy. This brief review gives an overview of the immunopathologic and coagulopathic alterations that occur in sepsis, soluble inflammatory mediators as potential diagnostic and prognostic biomarkers, and the clinical management of the septic patient.
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PMID:Pathophysiologic mechanisms in septic shock. 2406 Dec 88

The anticoagulant-activated protein C (APC) acts not solely as a crucial regulator of thrombus formation following vascular injury, but also as a potent signalling enzyme with important functions in the control of both acute and chronic inflammatory disease. These properties have been exploited to therapeutic effect in diverse animal models of inflammatory disease, wherein recombinant APC administration has proven to effectively limit disease progression. Subsequent clinical trials led to the use of recombinant APC (Xigris) for the treatment of severe sepsis. Although originally deemed successful, Xigris was ultimately withdrawn due to lack of efficacy and an unacceptable bleeding risk. Despite this apparent failure, the problems that beset Xigris usage may be tractable using protein engineering approaches. In this review, we detail the protein engineering approaches that have been utilized to improve the therapeutic characteristics of recombinant APC, from early studies in which the distinct anti-coagulant and signalling activities of APC were separated to reduce bleeding risk, to current attempts to enhance APC cytoprotective signalling output for increased therapeutic efficacy at lower APC dosage. These novel engineered variants represent the next stage in the development of safer, more efficacious APC therapy in disease settings in which APC plays a protective role.
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PMID:Engineering activated protein C to maximize therapeutic efficacy. 2655 14


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