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)

Meningitis and meningococcal sepsis are emergency conditions associated with high mortality. The outcome is worsened by the onset of disseminated intravascular coagulation. This may present, particularly in children, with the clinical picture of purpura fulminans, characterized by extensive necrotic-hemorrhagic skin lesions, ischemia of the extremities and multiorgan failure. It has been observed that depletion of coagulation inhibitors, particularly protein C, plays a key role in the development of this severe complication. We describe the case of a woman who presented in the Emergency Room with signs of meningitis, drowsiness, hypotension and petechie. Bacterioscopic examination of the cerebrospinal fluid evidenced characteristic gram-negative diplococci. Laboratory data disclosed initial disseminated intravascular coagulation with low levels of proteins C and S. Following intravenous infusion of antibiotics, fluids and fresh frozen plasma, the patient's condition rapidly improved. However, multiple skin lesions appeared on her fingers, toes and heels. It is likely that the infusion of coagulation inhibitors contained in fresh frozen plasma, prevented evolution to full-blown purpura fulminans. The first choice treatment for purpura fulminans in meningococcal sepsis is infusion of protein C concentrate, which is not, however, currently available on the market.
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PMID:[Meningococcal meningitis in the adult complicated by cutaneous necrosis: description of a clinical case]. 1120 31

Human protein C is a natural anticoagulant factor, and a recombinant activated form of the molecule (rhAPC) is completing clinical evaluation for treatment of severe sepsis. Because of the pathophysiologic role of endothelial dysfunction in severe inflammatory disease and sepsis, we explored the possibility that rhAPC might directly modulate endothelial function, independent of its anticoagulant activity. Using broad transcriptional profiling, we show that rhAPC directly modulates patterns of endothelial cell gene expression clustering into anti-inflammatory and cell survival pathways. rhAPC directly suppressed expression of p50 and p52 NFkappaB subunits, resulting in a functional decrease in NFkappaB binding at target sites. Further, rhAPC blocked expression of downstream NFkappaB regulated genes following tumor necrosis factor alpha induction, including dose-dependent suppression of cell adhesion expression and functional binding of intracellular adhesion molecule 1, vascular cell adhesion molecule 1, and E-selectin. Further, rhAPC modulated several genes in the endothelial apoptosis pathway, including the Bcl-2 homologue protein and inhibitor of apoptosis protein. These pathway changes resulted in the ability of rhAPC to inhibit the induction of apoptosis by the potent inducer, staurosporine. This new mechanistic understanding of endothelial regulation and the modulation of tumor necrosis factor-induced endothelial dysfunction creates a novel link between coagulation, inflammation, and cell death and provides insight into the molecular basis for the efficacy of APC in systemic inflammation and sepsis.
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PMID:Gene expression profile of antithrombotic protein c defines new mechanisms modulating inflammation and apoptosis. 1127 52

Severe meningococcemia, which is associated with hemodynamic instability, purpura fulminans and disseminated intravascular coagulation, still has a high mortality rate, and patients who survive are often left invalids because of amputations and organ failure. Clinical studies have shown that levels of protein C are markedly decreased in patients with severe meningococcemia and that the extent of the decrease correlates with a negative clinical outcome. There is a growing body of data demonstrating that activated protein C, in addition to being an anticoagulant, is also a physiologically relevant modulator of the inflammatory response. The dual function of protein C may be relevant to the treatment of individuals with severe meningococcal sepsis. In the present review we give a basic overview of the protein C pathway and its anticoagulant activity, and we summarize experimental data showing that activated protein C replacement therapy clearly reduces the mortality rate for fulminant meningococcemia.
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PMID:Protein C replacement in severe meningococcemia: rationale and clinical experience. 1130 70

During the past 20 years several treatments designed to reduce inflammatory responses to sepsis have been unsuccessful. Sepsis results from a generalised inflammatory and procoagulant response to an infection. Activated protein C, a component of the anticoagulant system, is an anti-thrombotic serine protease with anti-inflammatory properties. A recently published study reported the results of a large clinical trial in which recombinant human activated protein C significantly reduced mortality in patients with severe sepsis. Treatment with activated protein C also reduced circulating D-dimer and IL-6 levels, which are markers of coagulation activation and inflammation. There are several reasons why activated protein C could be effective in sepsis. Firstly, reduced levels of protein C are found during sepsis and are associated with an increased risk of death. Secondly, activated protein C can directly inhibit factors Va and VIIIa, resulting in decreased thrombin formation. Finally, activated protein C can reduce plasminogen activator inhibitor I, thereby stimulating fibrinolysis. In addition to these effects on thrombin formation, activated protein C directly reduces pro-inflammatory responses by as yet unknown mechanisms.
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PMID:[Activated protein C, coagulation, inflammation, and treatment of severe sepsis]. 1143 70

Sepsis-induced abnormalities of coagulation may contribute to mortality during severe bacterial infection. The aim of this study was to examine changes in coagulation parameters and to assess the role of protein C supplementation during murine S. aureus sepsis. Gram-positive sepsis was characterized by a hypercoagulable state with predominant activation of the external coagulation pathway, registered as an early increase of tissue factor activity and concomitant reduction in protein C. The internal coagulation pathway was unaffected. No correlation between the changes of coagulation parameters and the intensity of inflammation, determined as serum IL-6 levels, was found. Supplementation with neither protein C or APC favoured survival in S. aureus sepsis. Reduction in thrombin generation in response to protein C supplementation was associated with significantly increased survival.
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PMID:Thrombin generation and mortality during Staphylococcus aureus sepsis. 1131 18

Severe sepsis, defined as sepsis associated with acute organ dysfunction, results from a generalized inflammatory and procoagulant host response to infection. Coagulopathy in severe sepsis is commonly associated with multiple organ dysfunction, and often results in death. The molecule that is central to these effects is thrombin, although it may also have anticoagulant and antithrombotic effects through the activation of Protein C and induction of prostacyclin. In recent years, it has been recognized that chemicals produced by endothelial cells play a key role in the pathogenesis of sepsis. Thrombomodulin on endothelial cells coverts Protein C to Activated Protein C, which has important antithrombotic, profibrinolytic and anti-inflammatory properties. A number of studies have shown that Protein C levels are reduced in patients with severe infection, or even in inflammatory states without infection. Because coagulopathy is associated with high mortality rates, and animal studies have indicated that therapeutic intervention may result in improved outcomes, it was rational to initiate clinical studies.
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PMID:Microvascular endothelial dysfunction: a renewed appreciation of sepsis pathophysiology. 1137 85

Thrombin is a multifunctional protein, with procoagulant, inflammatory and anticoagulant effects. Binding of thrombin to thrombomodulin results in activation of Protein C and initiation of the Activated Protein C anticoagulant pathway, a process that is augmented by the endothelial cell Protein C receptor (EPCR). Activated Protein C has demonstrated antithrombotic, anti-inflammatory, and profibrinolytic properties. Its antithrombotic activity is particularly important in the microcirculation, and Protein C deficiency is associated with microvascular thrombosis. Activated Protein C has also been shown to modulate inflammation. When the level of thrombomodulin or Protein C is reduced in sepsis there is a vicious cycle of coagulation and inflammation, with potentially lethal consequences. In vitro studies and animal models have shown that Activated Protein C blunts the inflammatory and coagulant response to sepsis through a variety of mechanisms.
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PMID:The normal role of Activated Protein C in maintaining homeostasis and its relevance to critical illness. 1137 86

It is becoming increasingly clear that coagulation augments inflammation and that anticoagulants, particularly natural anticoagulants, can limit the coagulation induced increases in the inflammatory response. The latter control mechanisms appear to involve not only the inhibition of the coagulation proteases, but interactions with the cells that either generate anti-inflammatory substances, such as prostacyclin, or limit cell activation. Recent studies have demonstrated a variety of mechanisms by which coagulation, particularly the generation of thrombin, factor Xa and the tissue factor-factor VIIa complex, can augment acute inflammatory responses. Many of these responses are due to the activation of one or more of the protease activated receptors. Activation of these receptors on endothelium can lead to the expression of adhesion molecules and platelet activating factor, thereby facilitating leukocyte activation. Therefore, anticoagulants that inhibit any of these factors would be expected to dampen the inflammatory response. The three major natural anticoagulant mechanisms seem to exert a further inhibition of these processes by impacting cellular responses. Antithrombin has been shown in vitro to increase prostacyclin responses and activated protein C has been shown to inhibit a variety of cellular responses including endotoxin induced calcium fluxes in monocytes and the nuclear translocation of NFKB, a key step in the generation of the inflammatory response. In some, but not all, in vivo models, these natural anticoagulants have been able to inhibit endotoxin/E. coli-mediated leukocyte activation and to diminish cytokine elaboration (TNF, IL-6 and IL-8). Phase III clinical studies for treatment of patients with severe sepsis have been completed for APC, which was successful (1), and for antithrombin, which was not (2). A phase III trial with tissue factor pathway inhibitor is in progress. In this review, the mechanisms by which the different natural anticoagulants are thought to function will be reviewed.
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PMID:Role of coagulation inhibitors in inflammation. 1148 41

The 26th Congress of the Scandinavian Society of Anaesthesiology and Intensive Care Medicine took place in the state-of-the art Tromso University Hospital. There were over 500 participants, and approximately 300 oral and poster presentations highlighted the latest progress in diverse areas. Much interest focused on activated protein C (APC) and other ways forward in sepsis treatment, pain management, novel markers of neurotrauma and antioxidants in bypass surgery. The meeting continues to be the leading anaesthesiology and intensive care conference in the region.
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PMID:The 26th Congress of the Scandinavian Society of Anaesthesiology and Intensive Care Medicine, Tromso, Norway, 13-17 June 2001. 1151 33

Mutations in the gene encoding thrombomodulin (TM), a thrombin regulator, are suspected risk factors for venous and arterial thrombotic disease. We have previously described the generation of TM(Pro/Pro) mice carrying a TM gene mutation that disrupts the TM-dependent activation of protein C. Here, it is shown that inbred C57BL/6J TM(Pro/Pro) mice exhibit a hypercoagulable state and an increased susceptibility to thrombosis and sepsis. Platelet thrombus growth after FeCl(3)-induced acute endothelial injury was accelerated in mutant mice. Vascular stasis after permanent ligation of the carotid artery precipitated thrombosis in mutant but not in normal mice. Mutant mice showed increased mortality after exposure to high doses of endotoxin and demonstrated altered cytokine production in response to low-dose endotoxin. The severity of the hypercoagulable state and chronic microvascular thrombosis caused by the TM(Pro) mutation is profoundly influenced by mouse strain-specific genetic differences between C57BL/6 and 129SvPas mice. These data demonstrate that in mice, TM is a physiologically relevant regulator of platelet- and coagulation-driven large-vessel thrombosis and modifies the response to endotoxin-induced inflammation. The phenotypic penetrance of the TM(Pro) mutation is determined by as-yet-uncharacterized genetic modifiers of thrombosis other than TM.
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PMID:Characterization of a mouse model for thrombomodulin deficiency. 1155 84


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