EC:3.4.21.69 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.69 (APC)
16,337 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We examined whether recombinant human soluble thrombomodulin (rhs-TM) reduces compression trauma-induced spinal cord injury through protein C activation in rats. Administration of rhs-TM, either before or after the induction of spinal cord injury (SCI), markedly reduced the resulting motor disturbances. However, neither rhs-TM pretreated with an anti-rhs-TM monoclonal antibody (MAb) F2H5, which inhibits thrombin binding to rhs-TM, nor those pretreated with MAb R5G12, which selectively inhibits protein C activation by rhs-TM, prevented the motor disturbances. Intramedullary hemorrhages, observed 24 h after trauma, were significantly reduced in animals given rhs-TM. The increase in the tissue levels of tumor necrosis factor-alpha (TNF-alpha), TNF-alpha mRNA expression, and the accumulation of leukocytes in the damaged segment of the spinal cord were significantly inhibited in animals receiving rhs-TM, but these effects were not observed following administration of rhs-TM pretreated with MAb R5G12 or MAb F2H5. Leukocytopenia and activated protein C all produced effects similar to those of rhs-TM. These findings suggest that rhs-TM prevents compression trauma-induced SCI by inhibiting leukocyte accumulation by reducing the expression of TNF-alpha mRNA and such therapeutic effects of rhs-TM could be dependent on its protein C activation capacity. Findings further suggest that thrombomodulin can be implicated not only in the coagulation system but in regulation of the inflammatory response.
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PMID:Neuroprotection by recombinant thrombomodulin. 1074 54

Endothelial cells have two important anticoagulant systems, heparan sulfate-antithrombin system and thrombomodulin-protein C system. Under physiological conditions, these two systems inhibit activation of coagulation on endothelial cells. However, under inflammatory conditions, tumor necrosis factor(TNF)-alpha or other cytokines produced by monocytes reduce the anticoagulant properties of endothelial cell by downregulating expression of heparan sulfate and thrombomodulin on endothelial cells. Antithrombin stimulates prostacyclin generation from endothelial cells by interacting with heparan sulfate of endothelial cells and generated prostacyclin inhibits TNF-alpha production by monocytes. Activated protein C inhibits TNF-alpha production by monocyte dependent of its protease activity. Thus, antithrombin and activated protein C might inhibit the endothelial perturbation induced by cytokines. Antithrombin regulates TNF-alpha induced tissue factor expression on endothelial cells by an unknown mechanism. Thus, antithrombin and activated protein C might be useful agents for treating coagulation abnormalities associated with sepsis or other inflammation because these agents inhibit not only coagulation but also downregulation of anticoagulant activities of endothelial cells.
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PMID:[Endothelial cells and coagulation abnormalities]. 1081 Aug 75

We examined whether activated protein C (APC) reduces ischemia/reperfusion (I/R)-induced renal injury by inhibiting leukocyte activation. In a rat model, intravenous administration of APC markedly reduced I/R-induced renal dysfunction and histological changes, whereas intravenous administration of dansyl glutamylglycylarginyl chloromethyl ketone-treated factor Xa (DEGR-FXa; active-site-blocked factor Xa), heparin or diisopropyl fluorophosphate-treated APC (DIP-APC; inactive derivative of ARC) had no effect. Furthermore, APC significantly inhibited the I/R-induced decrease in renal tissue blood flow and the increase in the vascular permeability, whereas neither DEGR-FXa, heparin, nor DIP-APC produced such effects. Renal I/R-induced increases in plasma levels of fibrin degradation products were significantly inhibited by APC, DEGR-FXa, and heparin. These observations suggest that APC reduces I/R-induced renal injury independently of its anticoagulant effects but in a manner dependent on its serine protease activity. Renal levels of tumor necrosis factor-alpha (TNF-alpha), rat interleukin-8, and myeloperoxidase were significantly increased after renal I/R. These increases were significantly inhibited by APC but not by DEGR-FXa, heparin, or DIP-APC. Leukocytopenia produced effects similar to those of APC. These findings strongly suggest that APC protects against I/R-induced renal injury not by inhibiting coagulation abnormalities but by inhibiting activation of leukocytes that play an important role in I/R-induced renal injury. Inhibition of leukocyte activation by APC could be explained by the inhibitory activity of TNF-alpha. (Blood. 2000;95:3781-3787)
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PMID:Activated protein C reduces ischemia/reperfusion-induced renal injury in rats by inhibiting leukocyte activation. 2354 58

Systemic inflammatory response syndrome(SIRS) is a pathologic condition associated with infection and tissue injury and it frequently leads to multiple organ dysfunction syndrome and disseminated intravascular coagulation(DIC). Pathologic events observed in SIRS can be attributable to the actions of cytokines such as tumor necrosis factor-alpha(TNF-alpha) and interleukin-1 beta. These cytokines activate monocytes and endothelial cells to induce the expression of tissue factor on their cell surfaces. Tissue factor then activates the extrinsic pathway of the coagulation system to induce microthrombus formation. These cytokines also contribute to microthrombus formation by decreasing the endothelial expression of thrombomodulin and glycosaminoglycans that regulate the coagulation system. Consequently, these cytokines induce DIC. These cytokines can activate neutrophils to release various inflammatory mediators which are capable of damaging the endothelial cell. The resultant endothelial cell injury, together with the microthrombus formation, may lead to microcirculatory disturbance which plays a role in ischemic organ dysfunction. Although physiological anticoagulants such as antithrombin and activated protein C can prevent endothelial cell injury by inhibiting leukocyte activation, heparin does not. Thus, these anticoagulants except for heparin may be effective in treating DIC associated with SIRS.
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PMID:[SIRS and the coagulation of normality]. 1089 68

Disseminated intravascular coagulation (DIC) is an acquired syndrome characterized by intravascular fibrin formation occurring in the course of a variety of severe diseases. In gram-negative sepsis, endotoxin is the bacterial component eliciting a cascade of tissue factor dependent hypercoagulable reactions mediated by cytokines, including tumor necrosis factor-alpha and interleukin-6. Fibrinolysis is activated in this process by the action of tumor necrosis factor-alpha, but its activity is impaired by the predominant inhibitory effect of plasminogen activator inhibitor-1. Natural inhibitory mechanisms include antithrombin, the protein C system, and tissue factor pathway inhibitor. Each of these defense systems counteracts the harmful effects of DIC, and its acquired deficiency is associated with increased mortality in observational studies. The generation of several proteases in DIC, including factor Xa and thrombin, has potential interactions with inflammatory pathways that may potentiate the systemic inflammatory syndrome that often accompanies DIC. Experimental studies support the notion that defects in the protein C pathway modulate the inflammatory response, and illustrate that coagulation and inflammation are coupled systems in DIC.
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PMID:Pathophysiology of disseminated intravascular coagulation in sepsis. 1100 90

The precise regulatory mechanisms of amplification and downregulation of the pro- and anti-inflammatory cytokines in the inflammatory response have not been fully delineated. Although activated protein C (APC) and its precursor protein C (PC) have recently been reported to be promising therapeutic agents in the management of meningococcal sepsis, direct evidence for the anti-inflammatory effect remains scarce. We report that APC inhibits in vitro the release of tumor necrosis factor (TNF) and macrophage migration inhibitory factor (MIF), two known cytokine mediators of bacterial septic shock, from lipopolysaccharide (LPS)-stimulated human monocytes. The THP-1 monocytic cell line, when stimulated with LPS and concomitant APC, exhibited a marked reduction in the release of TNF and MIF protein in a concentration-dependent manner compared to cells stimulated with LPS alone. This effect was observed only when incubations were performed in serum-free media, but not in the presence of 1-10% serum. Serum-mediated inhibition could only be overcome by increasing APC concentrations to far beyond physiological levels, suggesting the presence of endogenous serum-derived APC inhibitors. Inhibition of MIF release by APC was found to be independent of TNF, as stimulation of MIF release by LPS was unaltered in the presence of anti-TNF antibodies. Our data confirm that the suggested anti-inflammatory properties of APC are due to direct inhibition of the release of the pro-inflammatory monokine TNF, and imply that the anti-inflammatory action of APC is also mediated via inhibition of MIF release.
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PMID:Activated protein C inhibits tumor necrosis factor and macrophage migration inhibitory factor production in monocytes. 1102 25

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

Interleukin-12 p70 (IL-12p70) heterodimer, composed of p35 and p40 subunits, is a major Th1-driving cytokine, promoting cell-mediated immunity. In contrast, IL-12p40 homodimer, secreted by APC in the absence of p35 expression, and free p40 monomer do not mediate IL-12 activity but act as IL-12 antagonists. Here it is reported that prostaglandin E(2) (PGE(2)), an inflammatory mediator with a previously known Th2-driving function, dose-dependently enhances the IL-12p40 mRNA expression and the secretion of IL-12p40 protein in human tumor necrosis factor-alpha (TNFalpha)-stimulated immature dendritic cells (DCs). This effect is selective and is not accompanied by the induction of IL-12p35 expression or by secretion of IL-12p70 heterodimer. Inability of TNFalpha/PGE(2) to induce IL-12p70 was not compensated by interferon gamma (IFNgamma), which strongly enhanced the lipopolysaccharide (LPS)-induced IL-12p70 production. In addition to the selective induction of IL-12p40 in TNFalpha-stimulated DCs, PGE(2) inhibited the production of IL-12p70 and IL-12p40 in DCs stimulated with LPS or CD40 ligand. These data suggest an additional level of the Th2-promoting activity of PGE(2), via selective induction of IL-12p40. Selective induction of IL-12p40 and suppression of bioactive IL-12p70 may have negative impact on anticancer vaccination with PGE(2)-matured DCs. (Blood. 2001;97:3466-3469)
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PMID:Prostaglandin E(2) is a selective inducer of interleukin-12 p40 (IL-12p40) production and an inhibitor of bioactive IL-12p70 heterodimer. 1136 38

Recently, a dual receptor agonist for human Flt3 and G-CSF receptors, progenipoietin-4 (ProGP-4), was shown to be highly effective in expanding DC in vivo. In this study, we examined the immunological activity of ProGP-4-generated dendritic cell (DC) in an HLA-A2.1 transgenic mouse system. ProGP-4 DC were found to be approximately equivalent in presenting a cytotoxic T lymphocyte (CTL) peptide to a CTL line in vitro compared with bone marrow (BM)-derived DC and >20-fold more efficient than macrophages or B cells, and >100-fold better than BM-DC, macrophages, or B cells at presenting PADRE, a universal helper T cell epitope, to a T cell clone. The heightened epitope presentation by ProGP-4 DC was paralleled in vivo inasmuch as a >6-fold increase in CTL induction was observed compared with other APC populations following ex vivo loading with peptide. The in vitro and in vivo CTL responses stimulated by ProGP-4 DC could be further augmented by either culturing with tumor necrosis factor-alpha (TNF-alpha) or co-loading with PADRE. Collectively, our results indicate that peptide-loaded ProGP-4-generated DC demonstrate potent antigenicity and immunogenicity for CTL, making them an attractive component of epitope-based vaccines.
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PMID:Dendritic cells generated in vivo by a chimeric hematopoietic growth factor, progenipoietin-4, demonstrate potent immunological function. 1139 5

It is well recognized that activation of the coagulation system plays an important role in bleomycin (BLM)-induced lung injury and fibrosis. The protein C (PC) pathway is an important regulator of the coagulation system. In this study, we evaluated the bronchoalveolar lavage fluid (BALF) concentration of activated PC (APC) and the therapeutic effect of the intratracheal administration of APC on BLM-induced lung fibrosis in mice. APC levels in BALF were significantly lower in BLM-treated animals than in the saline-treated group. Fibrotic changes were progressive in mice treated with BLM and intratracheal instillation of vehicle (BLM/Veh) after 14 and 21 d of BLM infusion. Compared with the BLM/Veh group, histologic findings on Days 14 and 21 in mice treated with BLM and intratracheal instillation of APC (BLM/APC) showed less fibrotic lesions in the subpleural and central areas of the lung. The mean Aschcroft's fibrosis score in the BLM/Veh group was significantly (p < 0.05) higher than in the BLM/APC group. The lung hydroxyproline content on Day 21 was significantly higher (p < 0.05) in the BLM/Veh group (1.78 +/- 0.07 micromol/lung weight) than in the BLM/APC (1.30 +/- 0.06 micromol/lung weight) group. The ratio of plasminogen activator activity to thrombin level in BALF was significantly increased in the BLM/APC group compared with the BLM/ Veh group on Day 21. The expression of tumor necrosis factor-alpha and interleukin-1beta was significantly decreased in the lungs of the BLM/APC group compared with the BLM/Veh group on Day 14 after BLM infusion. These results showed that intratracheal APC administration inhibits the development of lung fibrosis in BLM-induced lung injury, giving further support to the important role that the PC pathway plays in the mechanism of lung fibrosis.
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PMID:Intratracheal administration of activated protein C inhibits bleomycin-induced lung fibrosis in the mouse. 1140 91

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