Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0243026 (sepsis)
52,417 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The protein C pathway, which plays an important role in maintaining normal hemostasis and is a critical link between the inflammatory and procoagulant host responses to infection, is involved in modulating the coagulation and inflammation associated with severe sepsis. Recombinant human activated protein C (APC), or drotrecogin alfa (activated), shares the intrinsic pharmacologic activity of endogenous APC. In the Recombinant Human Activated Protein C Worldwide Evaluation in Severe Sepsis (PROWESS) trial, drotrecogin alfa (activated) decreased absolute mortality by 6% and relative risk of mortality by 19% compared with placebo. Drotrecogin alfa (activated) is an important advancement in the treatment of adult patients with severe sepsis.
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PMID:Pharmacology, clinical efficacy, and safety of drotrecogin alfa (activated). 1249 25

Sepsis with organ failure (severe sepsis) remains an important cause of morbidity and mortality among children. The clinical pathophysiology of severe sepsis reflects a coordinated activation of the innate immune response, including elaboration of proinflammatory cytokines and the induction of the extrinsic pathway of coagulation (sepsis-induced coagulopathy). These proinflammatory and procoagulant pathways are linked, and are similarly coregulated by a number of proteins and factors, including protein C. However, at least 80% of children and adults with severe sepsis develop acquired deficiency of protein C because of factor consumption. This deficiency is associated with poor outcomes, including multiple organ failure and mortality. Recently, recombinant activated protein C was shown to reduce the mortality of adults with severe sepsis, and is now approved for such use in the United States and Europe. The rationale for pediatric applications of protein C and ongoing clinical trials in children are reviewed.
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PMID:Recombinant human activated protein C for the treatment of severe sepsis: is there a role in pediatrics? 1254 78

The goals of this chapter are to provide a brief review of the biology of the protein C pathway and some of the features of the pathway that make it uniquely positioned to control microvascular coagulation and control the acute inflammatory response. Activated protein C works as an antithrombotic agent by inactivating factors Va and VIIIa. It is particularly effective at preventing microvascular thrombosis. Platelets may provide a margin of safety for activated protein C as an antithrombotic. Approximately 25% of the factor V/Va in plasma is contained within the platelet and hence resistant to time dependent inactivation by activated protein C. In addition, factor Va bound to the platelet surface is relatively resistant to inactivation by activated protein C. Activated protein C also facilitates clot lysis by inhibiting plasminogen activator inhibitor 1, a process that is accelerated markedly by vitronectin. Inflammatory cytokines like tumor necrosis factor alpha (TNFalpha) and interleukin-1beta (IL-1beta) downregulate two key components of the protein C activation complex, thrombomodulin and the endothelial cell protein C receptor resulting in decreased protein C activation. Activated protein C in turn has been shown in several animal models and in vitro to inhibit TNF elaboration in response to endotoxin. This inhibition appears to be due to diminished nuclear factor kappaB (NF kappaB) expression and nuclear translocation. Activated protein C has been shown to reduce the rate of death due to severe sepsis. This reduction may be due to both the anticoagulant effects as demonstrated by a reduction in D-dimer and inflammatory effects as demonstrated by a reduction in interleukin 6.
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PMID:Protein C pathway in sepsis. 1255

Activated protein C (APC) is a systemic anti-coagulant and anti-inflammatory factor. It reduces organ damage in animal models of sepsis, ischemic injury and stroke and substantially reduces mortality in patients with severe sepsis. It was not known whether APC acts as a direct cell survival factor or whether its neuroprotective effect is secondary to its anti-coagulant and anti-inflammatory effects. We report that APC directly prevents apoptosis in hypoxic human brain endothelium through transcriptionally dependent inhibition of tumor suppressor protein p53, normalization of the pro-apoptotic Bax/Bcl-2 ratio and reduction of caspase-3 signaling. These mechanisms are distinct from those involving upregulation of the genes encoding the anti-apoptotic Bcl-2 homolog A1 and inhibitor of apoptosis protein-1 (IAP-1) by APC in umbilical vein endothelial cells. Cytoprotection of brain endothelium by APC in vitro required endothelial protein C receptor (EPCR) and protease-activated receptor-1 (PAR-1), as did its in vivo neuroprotective activity in a stroke model of mice with a severe deficiency of EPCR. This is consistent with work showing the direct effects of APC on cultured cells via EPCR and PAR-1 (ref. 9). Moreover, the in vivo neuroprotective effects of low-dose mouse APC seemed to be independent of its anti-coagulant activity. Thus, APC protects the brain from ischemic injury by acting directly on brain cells.
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PMID:Activated protein C blocks p53-mediated apoptosis in ischemic human brain endothelium and is neuroprotective. 1261 68

Recent studies have highlighted the close link between activation of the coagulation system and the inflammatory response in the pathophysiology of severe sepsis. The protein C anticoagulant pathway plays an integral part in modulating the coagulation and inflammatory responses to infection. In patients with sepsis, endogenous protein C levels are decreased, shifting the balance toward greater systemic inflammation, coagulation, and cell death. On the basis of a single large randomised phase 3 trial, drotrecogin alfa (activated), a recombinant form of human activated protein C, was recently approved for the treatment of adult patients with severe sepsis and a high risk of death. Since its approval, several questions have been raised regarding the appropriate use of this agent. Given the increased risk of serious bleeding and the high cost of treatment, drotrecogin alfa (activated) should be reserved at this time for the most acutely ill patients with severe sepsis who meet the criteria that were used in the phase 3 trial.
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PMID:Drotrecogin alfa (activated): a novel therapeutic strategy for severe sepsis. 1256 44

In the pathogenesis of sepsis and disseminated intravascular coagulation (DIC), dysfunctional anticoagulant pathways are important. The function of the protein C system in DIC is impaired because of low levels of protein C and down-regulation of thrombomodulin. The administration of (activated) protein C results in an improved outcome in experimental and clinical studies of DIC. It is unknown whether congenital deficiencies in the protein C system are associated with more severe DIC. The aim of the present study was to investigate the effect of a heterozygous deficiency of protein C on experimental DIC in mice. Mice with single-allele targeted disruption of the protein C gene (PC+/-) mice and wild-type littermates (PC+/+) were injected with Escherichia coli endotoxin (50 mg/kg) intraperitoneally. PC+/-mice had more severe DIC, as evidenced by a greater decrease in fibrinogen level and a larger drop in platelet count. Histologic examination showed more fibrin deposition in lungs, kidneys, and liver in mice with a heterozygous deficiency of protein C. Interestingly, PC+/- mice had significantly higher levels of proinflammatory cytokines, tumor necrosis factor-alpha (TNF-alpha), interleukin-6 (IL-6), and IL-1beta, indicating an interaction between the protein C system and the inflammatory response. Survival was lower at 12 and 24 hours after endotoxin in the PC+/- mice. These results confirm the important role of the protein C system in the coagulative-inflammatory response on endotoxemia and may suggest that congenital deficiencies in the protein C system are associated with more severe DIC and adverse outcome in sepsis.
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PMID:Aggravation of endotoxin-induced disseminated intravascular coagulation and cytokine activation in heterozygous protein-C-deficient mice. 1260 41

Severe sepsis is a major public health concern and a burden on the healthcare system. Despite improvements in efforts to control the source of infection and increased recognition by healthcare providers of patients with the disease, the mortality rate remains unacceptably high, from 30% to 50%. The systemic inflammatory response syndrome criteria are used as diagnostic indicators of sepsis when they occur in patients with known or suspected infection. The outcome of a patient with severe sepsis is often related to the occurrence of sepsis-induced multiple organ dysfunction syndrome. Multiple organ dysfunction syndrome appears to result from a cascade of organism-related factors, inflammatory mediators, endothelial injury, disturbed hemostasis, and microcirculatory abnormalities. In patients with severe sepsis, derangements of inflammation and coagulation are tightly linked. Although numerous clinical trials focused on interventions in one or the other of the inflammatory and coagulation systems failed to show reduced mortality due to sepsis, a member of a new class of drugs called "cogins" was effective. In its active form, protein C has anti-inflammatory, antithrombotic, and profibrinolytic properties that can reduce organ injury associated with severe sepsis. A recombinant form of activated protein C, drotrecogin alfa (activated), significantly reduces 28-day mortality due to all causes in patients with severe sepsis and has an acceptable safety profile. This review provides an overview of severe sepsis, highlighting recent advances in treatment of the disease and the role of critical care nurses.
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PMID:Advances in the understanding of clinical manifestations and therapy of severe sepsis: an update for critical care nurses. 1262 70

Human activated protein C (APC) is an antithrombotic, antiinflammatory serine protease that plays a central role in vascular homeostasis, and activated recombinant protein C, drotrecogin alfa (activated), has been shown to reduce mortality in patients with severe sepsis. Similar to other serine proteases, functional APC levels are regulated by the serine protease inhibitor family of proteins including alpha(1)-antitrypsin and protein C inhibitor. Using APC-substrate modeling, we designed and produced a number of derivatives with the goal of altering the proteolytic specificity of APC such that the variants exhibited resistance to inactivation by protein C inhibitor and alpha(1)-antitrypsin yet maintained their primary anticoagulant activity. Substitutions at Leu-194 were of particular interest, because they exhibited 4- to 6-fold reductions in the rate of inactivation in human plasma and substantially increased pharmacokinetic profiles compared with wild-type APC. This was achieved with minimal impairment of the anticoagulant/antithrombotic activity of APC. These data demonstrate the ability to selectively modulate substrate specificity and subsequently affect in vivo performance and suggest therapeutic opportunities for the use of protein C derivatives in disease states with elevated serine protease inhibitor levels.
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PMID:Engineering the proteolytic specificity of activated protein C improves its pharmacological properties. 1267 Oct 72

Disseminated intravascular coagulation (DIC) is characterized by systemic activation of the haemostasis. In many instances the release of inflammatory cytokines and tissue factor trigger the system in septic or traumatic conditions. Initially, the increased activation of haemostasis can be compensated by natural inhibitor systems. As release of the triggers persists, inhibitors (e.g. antithrombin and protein C) will be consumed leading to intravascular clotting. In this process many coagulation factors, most notably fibrinogen and platelets are consumed too, resulting in a failure of haemostasis system and in a diffuse bleeding (decompensated DIC). Fresh frozen plasma, blood transfusion, and fibrinogen concentrate correct the bleeding, if needed, in the case of traumatic (obstetric) DIC. Arrest of the activated haemostasis by heparin and natural anticoagulants (antithrombin or/and protein C) is recommended, mainly in septic conditions with systemic inflammatory reactions. A case of stercoral sepsis usefully treated by recombinant human activated protein C is reported.
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PMID:[Disseminated intravascular coagulation syndrome and protein C]. 1268 50

Activation of protein C by thrombin bound to thrombomodulin is enhanced by endothelial protein C receptor. This pathway may inhibit inflammation. We investigated effects of protein C and activated protein C on neutrophils as well as whether an endothelial protein C receptor is involved in mediating protein C effects. Neutrophils were from venous blood of healthy donors. Cell migration, respiratory burst, phagocytic activity, and apoptosis were studied by micropore filter assays and fluorometry. Receptor expression was investigated by reverse transcriptase-polymerase chain reaction (PCR) for mRNA, sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) and autoradiography of immunoprecipitated receptor protein, and fluorescence-activated cell-sorter scanner (FACS) analysis using the anti-endothelial protein C receptor antibody RCR-252. Neither protein C nor activated protein C induced migration, yet both of them inhibited neutrophil chemotaxis triggered by interleukin-8, formyl-Met-Leu-Phe, antithrombin, or C5a. A protein C activation-blocking antibody against endothelial protein C receptor diminished inhibitory effects of protein C or activated protein C on migration. No effect of either protein C preparation was seen in neutrophil's respiratory burst, bacterial phagocytosis, or apoptosis assays. Endothelial protein C receptor immunoreactivity was confirmed on neutrophils by FACS. De novo synthesis is suggested by endothelial protein C receptor mRNA expression as demonstrated by reverse transcriptase PCR and immunoprecipitation SDS-PAGE analyses. Data suggest that an endothelial protein C receptor is expressed by human neutrophils whose active site ligation with either protein C or activated protein C arrests directed cell migration. Inhibitory effects of these components of the protein C pathway on neutrophil function may play a role in the protein C-based treatment of severe sepsis.
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PMID:Expression and function of the endothelial protein C receptor in human neutrophils. 1271 92


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