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:C0036690 (sepsis)
59,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Tissue factor (also known as tissue thromboplastin or CD142) is the protein that activates the blood clotting system by binding to, and activating, the plasma serine protease, factor VIIa, following vascular injury. Because of its essential role in hemostasis, tissue factor plays a role in pathology associated with hemostasis, triggering the coagulation system in many thrombotic diseases and the coagulopathies associated with sepsis and other forms of disseminated intravascular coagulation. Recent research has also implicated tissue factor in a variety of nonhemostatic roles, including cell signaling, inflammation, vasculogenesis, and tumor growth and metastasis. This review focuses on both the well-known roles of tissue factor in hemostasis and thrombosis and the newer concepts of tissue-factor biology including how it functions as a signaling receptor and the possible role of blood-borne tissue factor in thrombosis.
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PMID:Tissue factor: a key molecule in hemostatic and nonhemostatic systems. 1500 35

We have generated transgenic mice expressing the leech anticoagulant hirudin and human tissue factor pathway inhibitor tethered to the cell surface by fusion with fragments of human CD4 and P-selectin. Expression of the transgenes is under the control of the CD31 (platelet endothelial cell adhesion molecule [PECAM]) promoter, limiting expression to endothelial cells, monocytes, and platelets. In addition, the P-selectin sequence directs expression to secretory granules. Functional cell surface expression only occurs when the cells are activated. In a mouse model of systemic lipopolysaccharide (LPS)-induced endotoxemia, we show that expression of either anticoagulant on activated endothelium inhibits the widespread intravascular thrombosis, thrombocytopenia, and consumptive coagulopathy associated with endotoxemia. Importantly, non- LPS-treated transgenic mice had normal baseline bleeding times. We speculate that targeted delivery of anticoagulants to the endothelium may be a strategy worth pursuing in clinical sepsis to improve efficacy of systemic anticoagulation while minimizing potential hemorrhagic side effects.
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PMID:Inhibition of intravascular thrombosis in murine endotoxemia by targeted expression of hirudin and tissue factor pathway inhibitor analogs to activated endothelium. 1512 22

It is generally accepted that the initial event in coagulation and intravascular thrombus formation is the exposure of cell-surface protein, such as tissue factor (TF). TF is exposed to the flowing blood as a consequence of vascular injury induced, for instance, by PTCA, or by spontaneous rupture of an atherosclerotic plaque. Expression of TF may also be induced in monocytes and endothelial cells in several conditions such as sepsis and cancer, causing a more generalized activation of clotting. In addition to its essential role in hemostasis, TF may be also implicated in several pathophysiological processes, such as intracellular signaling, cell proliferation, and inflammation. For all these reasons, TF has been the subject of intense research focus. Many experimental studies have demonstrated that inhibition of TF:factor VIIa procoagulant activity is a powerful inhibitor of in vivo thrombosis and that this approach usually results in a less-pronounced bleeding tendency compared with other "more classical" antithrombotic interventions. Alternative approaches may be represented by antibodies directed against TF, by transfection of the arterial wall with natural inhibitors of the TF:factor VIIa complex, such as the TF pathway inhibitor, or with catalytic RNA (ribozyme), which could inhibit the expression of the TF protein by the disruption of cellular TF mRNA. All these approaches seem particularly attractive because they may result in complete inhibition of local thrombosis without incurring potentially harmful systemic effects. Further studies are warranted to determine the efficacy and safety of such approaches in patients.
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PMID:Targeting tissue factor as an antithrombotic strategy. 1519 84

Recombinant human activated protein C (rhAPC) has recently been demonstrated to be a promising candidate to improve the outcome for patients with severe sepsis. Plasma-derived activated protein C and unfractionated heparin (UH) exert anticoagulant synergy due to mechanisms that simultaneously decrease thrombin generation. Melagatran, a new direct thrombin inhibitor, does not bind to plasma proteins or requires antithrombin as a cofactor. The latter is often consumed in patients with severe sepsis. We investigated the anticoagulant efficiency in combined administration of rhAPC and UH or melagatran in terms of prolongation of the standard clotting assays activated partial thromboplastin time (aPTT) and prothrombin time (PT) in pooled plasma samples in vitro. RhAPC dose-dependently prolonged the aPTT but not the PT. The ability of UH and melagatran to prolong the aPTT was significantly enhanced in combination with rhAPC. The combined administration of rhAPC and melagatran, but not UH, resulted in additive prolongation of the PT. In control measurements the capability of rhAPC to suppress prothrombin fragment 1.2 generation dose-dependently increased in combination with heparin and melagatran. Our study demonstrates the respective effects of rhAPC, UH, melagatran and further different additive effects in combined administration of rhAPC and UH or melagatran on the prolongation of the aPTT and PT clotting assays usually used to monitor anticoagulant treatment.
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PMID:Drotrecogin alfa activated (recombinant human activated protein C) in combination with heparin or melagatran: effects on prothrombin time and activated partial thromboplastin time. 1561 25

Anticoagulation during renal replacement therapy is recommended to avoid thrombosis of the filter devices and to maintain the blood flow. However, in the case of multiorgan failure and sepsis, an imminent bleeding complication in patients with acute renal failure may cause the need for an extracorporeal circulation without anticoagulation. The most common drug used in renal replacement therapy is the unfractionated heparin (UFH). With low molecular weight heparin (LMWH) good experiences are reported, too. Based on the level of evidence from clinical studies plasma measurement of heparin is indispensable for patients with renal insufficiency. The activated whole blood clotting time (ACT), the activated partial thromboplastin time (aPTT), and the determination of the anti-factor Xa activity (anti Xa) with chromogenic substrates are available as routine as well as as point-of-care tests. To monitor plasma levels of LMWH the anti Xa assay serves exclusively as a suitable monitoring. The anti Xa assay using chromogenic substrates is the most specific and valid one for monitoring heparin therapy. In lack of large controlled studies for the anticoagulation therapy and its monitoring with the anti Xa test in acute renal failure, the current experiences are based on the results of chronic renal replacement therapy.
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PMID:[Monitoring of the heparin therapy during acute haemodialysis]. 1611 51

Severe sepsis in children or adults may cause a life-threatening coagulopathy, with widespread consumption of activated protein C (APC); recombinant human APC (rhAPC) is a promising candidate anticoagulant treatment. We investigated the effects of rhAPC and other anticoagulants on coagulation triggered by adding small quantities of lipidated tissue factor to human umbilical-cord plasma in vitro. rhAPC, unfractionated heparin (UH), and melagatran (a direct thrombin inhibitor) were studied individually, and in combinations of rhAPC with either UH or melagatran. rhAPC alone dose-dependently prolonged the activated partial-thromboplastin time (aPTT) but not the prothrombin time (PT), and dose-dependently suppressed two indices of thrombin generation, namely prothrombin fragment F 1.2 (F 1.2) generation and thrombin-antithrombin (TAT) complex formation. UH alone dose-dependently prolonged the aPTT but not the PT, while melagatran alone dose-dependently prolonged both the aPTT and the PT. Adding either UH or melagatran dose-dependently augmented the capacity of rhAPC to suppress F 1.2 generation (with addition of UH showing a greater effect) and TAT formation (with addition of melagatran showing a greater effect). Both the capacity of UH to prolong the aPTT and the capacity of melagatran to prolong the aPTT and the PT were augmented by adding rhAPC. In our in-vitro study, adding either UH or melagatran augmented the capacity of rhAPC to suppress thrombin generation in human umbilical-cord plasma, with the anticoagulant effect of melagatran being more predictable than that of UH. Hence, combining rhAPC with melagatran might be a valuable therapeutic option in patients with severe sepsis.
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PMID:Additive effects of anticoagulants: recombinant human activated protein C and heparin or melagatran, in tissue factor-activated umbilical-cord plasma. 1611 86

Pentoxifylline (PTX, a methylxanthine derivative) has been found to interrupt early gene activation for tumour necrosis factor, interleukin-1, interleukin-6 and tissue factor production and to improve survival from experimental sepsis. During endotoxaemia, lipopolysaccharide (LPS, endotoxin) and proinflammatory cytokines trigger the development of disseminated intravascular coagulation (DIC) via the tissue factor-dependent pathway of coagulation. The present study was undertaken to determine whether pentoxifylline could prevent coagulation disturbances in LPS-treated rabbits. Endotoxaemia was induced with E. coli lipopolysaccharide in New Zealand White rabbits. Forty rabbits were used and divided into four equal groups. Group 1 served as a control group; Group 2: lipopolysaccharide was injected intravenously, Group 3: pentoxifylline was injected intraperitoneally, Group 4: lipopolysaccharide and pentoxifylline were injected simultaneously. Blood samples were collected 6 h after the treatments. In rabbits with endotoxin-induced DIC, platelet count, leukocyte count, percentage of differential leukocyte values, fibrinogen level, antithrombin III (AT-III) and protein C (PC) activity were decreased. Moreover, activated partial thromboplastin time (APTT) and prothrombin time (PT) were prolonged when compared to the control group. In conclusion, haemostatic disturbances associated with endotoxin-induced DIC were moderately suppressed by the administration of PTX.
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PMID:Effect of pentoxifylline on endotoxin-induced haemostatic disturbances in rabbits. 1615 28

Endothelium plays a critical role in the pathobiology of sepsis by integrating systemic host responses and local rheological stimuli. We studied the differential expression and activation of tissue factor (TF)-dependent coagulation on linear versus branched arterial segments in a baboon sepsis model. Animals were injected intravenously with lethal doses of Escherichia coli or saline and sacrificed after 2 to 8 hours. Whole-mount arterial segments were stained for TF, TF-pathway inhibitor (TFPI), factor VII (FVII), and markers for endothelial cells (ECs), leukocytes, and platelets, followed by confocal microscopy and image analysis. In septic animals, TF localized preferentially at branches, EC surface, leukocytes, and platelet aggregates and accumulated in large amounts in the subendothelial space. FVII strongly co-localized with TF on ECs and leukocytes but less so with subendothelial TF. TFPI co-localized with TF and FVII on endothelium and leukocytes but not in the subendothelial space. Focal TF increases correlated with fibrin deposition and increased endothelial permeability to plasma proteins. Biochemical analysis confirmed that aortas of septic baboons expressed more TF mRNA and protein than controls. Branched segments contained higher TF protein levels and coagulant activity than equivalent linear areas. These data suggest that site-dependent endothelial heterogeneity and rheological factors contribute to focal procoagulant responses to E. coli.
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PMID:Tissue factor-dependent coagulation is preferentially up-regulated within arterial branching areas in a baboon model of Escherichia coli sepsis. 1619 50

The protein C pathway serves as a modulating system with both anti-inflammatory and anticoagulant properties and is intimately involved in the pathophysiology of inflammation and sepsis. Treatment with recombinant human activated protein C (rhAPC) can reduce the mortality of severe sepsis. We investigated whether an elevation of plasma protein C levels to supra-normal levels by infusion of a protein C zymogen concentrate has an effect on coagulation, protein C activation or inflammation in a human endotoxemia model. Eleven healthy male volunteers were enrolled in a double-blind, placebo-controlled two-way cross-over trial. Ten minutes after infusion of 2ng/kg endotoxin each volunteer received either placebo or a plasma-derived protein C zymogen concentrate (Ceprotin, Baxter) (150 U/kg as a slow bolus infusion followed by 30 U/kg/h continuous infusion until 4 hours after LPS-infusion). Protein C antigen and activity increased 4- to 5-fold after infusion of the concentrate. APC was generated during endotoxin-induced inflammation in the placebo (1.6 fold increase) and the protein C period (4.0-fold increase). The increase of APC levels correlated with the TNF-alpha and IL-6 release in both periods (r = 0.65-0.68; p < 0.05) and paralleled the protein C antigen and activity levels in the period with supranormal protein C levels. Supra normal protein C levels resulted in slightly, although non-significant, lower tissue factor mRNA expression and thrombin generation (TAT, F1+2). Systemic inflammation (TNF-alpha, IL-6) was not influenced by protein C zymogen concentrate administration. Infusion of protein C zymogen was safe and no adverse effects occurred. The increase of protein C levels several fold above the normal range resulted in a proportional increase of the APC levels, but had no major anticoagulant, anti-inflammatory or profibrinolytic effects. Low grade endotoxemia itself induces significant protein C activation, which correlates with the TNF release.
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PMID:The effects of supra-normal protein C levels on markers of coagulation, fibrinolysis and inflammation in a human model of endotoxemia. 1673 92

Tissue factor (TF) is a transmembrane protein, which is essential for initiation of the coagulation cascade. TF has been reported to play an important role in the progression of endotoxin (lipopolysaccharide, LPS)-mediated endotoxemia, being induced in numerous tissues, such as kidney, spleen and lung. We developed and validated a rabbit anti-murine TF peptide antiserum to localize TF protein in a murine sepsis model. TF protein distribution was compared to localization of TF mRNA and fibrin deposits, the ultimate resultant of procoagulant TF activity. Evident LPS mediated TF mRNA induction was observed in the tubular area at the cortico-medullar junction in the kidney, and TF activity was increased after 6 hours of endotoxemia. In the spleen, however, TF mRNA was induced in the interfollicular region upon LPS injection, corresponding to increased TF protein in the same area. The clusters of TF-protein positive cells in the spleen are predominantly granulocytes, but no TF mRNA expression was observed within these cells. Based on these observations and the presence of TF-protein positive granulocytes after splenectomy, we hypothesize that granulocytes take-up TF for transport to other locations in order to initiate fibrin formation or to induce pro-inflammatory gene expression upon interaction with factor VIIa.
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PMID:Differential expression of tissue factor mRNA and protein expression in murine sepsis. The role of the granulocyte revisited. 1649 99


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