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)

Sepsis and septic shock account for substantial morbidity and mortality in the intensive care units. NF-kappaB activation, and elevated concentrations of macrophage migration inhibitory factor (MIF), tumor necrosis factor-a (TNF-alpha), interleukin-1 (IL-1), IL-6, free radicals, inducible nitric oxide (iNO), and stress hyperglycemia are some of the factors that induce systemic inflammatory response and myocardial depression seen in sepsis. Conversely, adenosine, activated protein C, oxidized phospholipids, w-3 fatty acids, and insulin have beneficial effects in sepsis and septic shock. These molecules and in particular insulin have the ability to suppress synthesis of MIF, TNF-alpha, IL-1, IL-6, and free radicals, enhance endothelial NO production, and enhance the production of anti-inflammatory cytokines IL-10, and IL-4. In addition, insulin corrects stress hyperglycemia and improves myocardial function. Thus insulin, adenosine, activated protein C, oxidized phospholipids, and w-fatty acids show anti-inflammatory actions and explain why and how they are useful in sepsis and septic shock and possibly, other inflammatory conditions. Hence, their combined use may be of significant benefit in sepsis and septic shock.
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PMID:Current advances in sepsis and septic shock with particular emphasis on the role of insulin. 1294 44

The protein C anticoagulant pathway serves as a major system for controlling thrombosis, limiting inflammatory responses, and potentially decreasing endothelial cell apoptosis in response to inflammatory cytokines and ischemia. The essential components of the pathway involve thrombin, thrombomodulin, the endothelial cell protein C receptor (EPCR), protein C, and protein S. Thrombomodulin binds thrombin, directly inhibiting its clotting and cell activation potential while at the same time augmenting protein C (and thrombin activatable fibrinolysis inhibitor [TAFI]) activation. Furthermore, thrombin bound to thrombomodulin is inactivated by plasma protease inhibitors > 20 times faster than free thrombin, resulting in increased clearance of thrombin from the circulation. The inhibited thrombin rapidly dissociates from thrombomodulin, regenerating the anticoagulant surface. Thrombomodulin also has direct anti-inflammatory activity, minimizing cytokine formation in the endothelium and decreasing leukocyte-endothelial cell adhesion. EPCR augments protein C activation approximately 20-fold in vivo by binding protein C and presenting it to the thrombin-thrombomodulin activation complex. Activated protein C (APC) retains its ability to bind EPCR, and this complex appears to be involved in some of the cellular signaling mechanisms that down-regulate inflammatory cytokine formation (tumor necrosis factor, interleukin-6). Once APC dissociates from EPCR, it binds to protein S on appropriate cell surfaces where it inactivates factors Va and VIIIa, thereby inhibiting further thrombin generation. Clinical studies reveal that deficiencies of protein C lead to microvascular thrombosis (purpura fulminans). During severe sepsis, a combination of protein C consumption, protein S inactivation, and reduction in activity of the activation complex by oxidation, cytokine-mediated down-regulation, and proteolytic release of the activation components sets in motion conditions that would favor an acquired defect in the protein C pathway, which in turn favors microvascular thrombosis, increased leukocyte adhesion, and increased cytokine formation. APC has been shown clinically to protect patients with severe sepsis. Protein C and thrombomodulin are in early stage clinical trials for this disease, and each has distinct potential advantages and disadvantages relative to APC.
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PMID:The protein C pathway. 1297 Jan 21

We studied 33 women during normal uneventful pregnancies and with no history of previous adverse pregnancy events for markers of activated coagulation and thrombin activity including prothrombin fragment 1.2(PF1.2), thrombin- antithrombin (TAT), and soluble fibrin polymer (SFP). In addition, we measured potential thrombin generation through the addition of thromboplastin to patient plasma in the presence of a thrombin-specific chromogenic substrate determined serially over a period of time--Endogenous Thrombin Potential assay (ETP). This assay was performed with plasma treated and untreated with activated protein C (APC). The fibrinolytic system was assessed by measurement of thrombin activatable fibrinolysis inhibitor (TAFI). These findings were correlated with the levels of pro-inflammatory cytokines, interleukine-1 beta and tumor necrosis factor-alpha. Our data supports previous reports that indicate that resistance to activated protein C and coagulation activation markers are commonly increased in the later 2/3rds of pregnancy. There are no differences in thrombin generation potential, as determined by the ETP assay without the addition of APC, in the three trimesters. However, the thrombin reserve (TR), the ETP result without APC divided by the ETP result with the addition of APC, is increased above the reference range in the 2nd and 3rd trimesters. Patients with increased TR and resistance to APC had increased levels of TNF-alpha. Increased proinflammatory cytokines are reportedly associated with changes in the APC system with a decrease in the ability to generate APC. A sub-group of pregnancies with APC resistance had increased levels of TNF-alpha and may be important in the risk for adverse pregnancy outcomes.
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PMID:Circulating levels of inflammatory cytokines (IL-1 beta and TNF-alpha), resistance to activated protein C, thrombin and fibrin generation in uncomplicated pregnancies. 1465 39

Activated protein C (APC), a natural anticoagulant, is formed from protein C by the action of the thrombin-thrombomodulin (TM) complex on the endothelial cell surface. Endothelial protein C receptor augments the activation of protein C by the thrombin/TM system. APC inactivates the activated form of coagulation factors V and VIII in the presence of protein S. Administration of APC reduced the pulmonary vascular injury and hypotension as well as the coagulation abnormalities by inhibiting production of the tumor necrosis factor-alpha (TNF-alpha) in rats given endotoxin (ET). These therapeutic effects of APC could not be attributed to its anticoagulant effects. APC inhibited ET-induced TNF-alpha production in human monocytes by inhibiting activation of nuclear factor K-B and activator protein-1 in vitro. Administration of the human plasma-derived APC ameliorated coagulation abnormalities without any adverse effects in patients with disseminated intravascular coagulation (DIC). Recombinant APC was reported to reduce the mortality of patients with severe sepsis, and the therapeutic effect was more marked in such patients with overt DIC than those without it. These observations strongly suggest that APC plays important roles in the regulation of inflammation as well as coagulation. Both anti-inflammatory and anticoagulant properties of APC might contribute to the therapeutic usefulness in patients with severe sepsis.
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PMID:Regulation of inflammatory responses by activated protein C: the molecular mechanism(s) and therapeutic implications. 1506 50

Overwhelming gram-negative bacterial infection and life-threatening systemic inflammation are widespread problems in critically ill emergency department patients. Currently, the treatment of these patients is largely supportive, focusing on antibiotics, fluids, hemodynamic and ventilatory support, and intensive monitoring. The only Food and Drug Administration-approved pharmaceutical agent for the treatment of sepsis is activated protein C, with its use largely relegated to the intensive care unit. The subject thus remains an active area of exploration for emergency medicine research. During sepsis and inflammation, innate immune cells release excessive amounts of proinflammatory cytokines such as tumor necrosis factor (TNF) and interleukin-1beta. If delivered early enough, anti-TNF antibodies can be an effective therapy in experimental models of septic shock. Anti-TNF antibodies have been developed for clinical use in rheumatoid arthritis and Crohn's disease. However, anti-TNF treatment for sepsis has been difficult to achieve in the clinical setting, perhaps because TNF's early release and transient appearance in the serum create a narrow therapeutic window. An alternative strategy would be to identify "late" mediators that may be clinically more accessible. High mobility group box 1 (HMGB1), a protein previously known only as a nuclear transcription factor, is now implicated as a late mediator of sepsis. Targeting late mediators of lethal systemic inflammation represents a novel approach that may widen the therapeutic window and lead to new strategies for inhibiting the deleterious effects of the inflammatory cascade. Here the authors review the studies that led to the discovery of HMGB1 as a late mediator of systemic inflammation and discuss the possibility of HMGB1 as a therapeutic target for septic patients in the emergency department.
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PMID:Bench to bedside: HMGB1-a novel proinflammatory cytokine and potential therapeutic target for septic patients in the emergency department. 1528 94

Activated protein C (APC) treatment is now used for patients with severe sepsis. We investigated its effect in vitro on primary, physiologically relevant cells and demonstrate a novel mechanism of endothelial protein C receptor (EPCR) release that is not inhibited by metalloproteinase inhibitors. Exposure of human umbilical vein endothelial cells or monocytes to APC (6.25-100 nM) results in the release of EPCR-containing microparticles, as demonstrated by confocal microscopy and characterized through flow cytometry, enzyme-linked immunosorbent assay quantitation of isolated microparticles, and Western blotting. The phenomenon is time- and concentration-dependent and requires the APC active site, EPCR, and protease activated receptor 1 (PAR1) on endothelial cells. Neither protein C nor boiled or D-Phe-Pro-Arg-chloromethylketone-blocked APC can induce microparticle formation and antibody blockade of EPCR or PAR1 cleavage and activation abrogates this APC action. Coincubation with hirudin does not alter the APC effect. The released microparticle bound is full-length EPCR (49 kDa) and APC retains factor V-inactivating activity. Although tumor necrosis factor-alpha (10 ng/mL) can also induce microparticle-associated EPCR release to a similar extent as APC (100 nM), it is only APC-induced microparticles that contain bound APC. This novel observation could provide new insights into the consequences of APC therapy in the septic patient.
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PMID:Activated protein C induces the release of microparticle-associated endothelial protein C receptor. 1548 64

The effects of n-acetyl cysteine (NAC), s-allyl cysteine (SAC), s-ethyl cysteine, s-methyl cysteine and s-propyl cysteine (SPC) activity on Balb/cA mice against diabetic complications were examined. These complications included hyperglycemia, hyperlipidemia, oxidation stress, blood coagulation, and cytokine imbalance. To induce diabetes, mice were treated with streptozotocin i.p. for 5 consecutive days. Five cysteine-containing compounds at 1 g/L were added to the drinking water. After intake of the 5 cysteine-containing agents for 4 wk, body weight loss, plasma concentrations of glucose and insulin, and fibronectin levels were improved (P < 0.05) in diabetic mice. The administration of these agents restored the glutathione level (P < 0.05), reduced the loss of catalase and glutathione peroxidase activities in kidney and liver (P < 0.05), and decreased glucose-induced lipid oxidation, as assessed by malondialdehyde formation (P < 0.05). In all diabetic mice, the intake of these agents reduced triglyceride levels in plasma and liver (P < 0.05); however, only NAC, SAC and SPC treatments reduced cholesterol level in liver (P < 0.05). These cysteine-containing agents elevated the activity of 2 fibrinolytic factors, protein C and antithrombin III (P < 0.05). The overexpression of interleukin-6 and tumor necrosis factor-alpha in diabetic mice was suppressed by the intake of the 5 cysteine-containing agents (P < 0.05). Via their antioxidant activities, the 5 compounds effectively improved glycemic control, delayed oxidation damage, downregulated inflammatory cytokines, and enhanced anticoagulant activity in diabetic mice. These data support the multiple roles of these agents as potential protective agents for delaying diabetic deterioration.
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PMID:Five cysteine-containing compounds delay diabetic deterioration in Balb/cA mice. 1557 20

Activated protein C (APC), a natural anticoagulant protease, can trigger cellular responses via protease-activated receptor-1 (PAR1), a G protein-coupled receptor for thrombin. Whether this phenomenon contributes to the physiological effects of APC is unknown. Toward answering this question, we compared the kinetics of PAR1 cleavage on endothelial cells by APC versus thrombin. APC did cleave PAR1 on the endothelial surface, and antibodies to the endothelial protein C receptor inhibited such cleavage. Importantly, however, APC was approximately 10(4)-fold less potent than thrombin in this setting. APC and thrombin both triggered PAR1-mediated responses in endothelial cells including expression of antiapoptotic (tumor necrosis factor-alpha-induced a20 and iap-1) and chemokine (interleukin-8 (il-8) and cxcl3) genes, but again, APC was approximately 10(4)-fold less potent than thrombin. The addition of zymogen protein C to endothelial cultures did not alter the rate of PAR1 cleavage at low or high concentrations of thrombin, and PAR1 cleavage was substantial at thrombin concentrations too low to trigger detectable conversion of protein C to APC. Thus, locally generated APC did not contribute to PAR1 cleavage beyond that effected by thrombin in this system. Although consistent with reports that sufficiently high concentrations of APC can cleave and activate PAR1 in culture, our data suggest that a significant physiological role for PAR1 activation by APC is unlikely.
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PMID:PAR1 cleavage and signaling in response to activated protein C and thrombin. 1566 2

Inflammation and thrombosis are increasingly recognized as interrelated biologic processes. Endothelial cell expression of thrombomodulin (TM), a key component of the anticoagulant protein C pathway, is potently inhibited by inflammatory cytokines. Because the mechanism underlying this effect is largely unknown, we investigated a potential role for the inflammatory transcription factor nuclear factor-kappa B (NF-kappaB). Blocking NF-kappaB activation effectively prevented cytokine-induced down-regulation of TM, both in vitro and in a mouse model of tumor necrosis factor-alpha (TNF-alpha)-mediated lung injury. Although the TM promoter lacks a classic NF-kappaB consensus site, it does contain tandem Ets transcription factor binding sites previously shown to be important for both constitutive TM gene expression and cytokine-induced repression. Using electrophoretic mobility shift assay and chromatin immunoprecipitation, we found that multiple Ets species bind to the TNF-alpha response element within the TM promoter. Although cytokine exposure did not alter Ets factor binding, it did reduce binding of p300, a coactivator required by Ets for full transcriptional activity. Overexpression of p300 also prevented TM repression by cytokines. We conclude that NF-kappaB is a critical mediator of TM repression by cytokines. Further evidence suggests a mechanism involving competition by NF-kappaB for limited pools of the transcriptional coactivator p300 necessary for TM gene expression.
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PMID:Regulation of endothelial thrombomodulin expression by inflammatory cytokines is mediated by activation of nuclear factor-kappa B. 1567 70

Acid aspiration causes direct lung damage and secondary inflammatory response involving several cytokines and accumulation of neutrophils. Activated protein C (APC) exhibits antithrombotic and anti-inflammatory properties. We examined the effect and mechanism of pre-treatment APC on acid-aspirated lung injury in rats. Anesthetized rats were instilled intratracheally with normal saline (NS, 2 ml kg(-1)) or hydrochloric acid (HCl, 0.1 N, 2 ml kg(-1)). Thirty minutes before HCl instillation, APC (200 U kg(-1) h(-1)) was infused continuously into the right jugular vein. Animals were ventilated during the experiments. Five hours after HCl or NS instillation, bronchoalveolar lavage fluid (BALF) and lung tissue samples were obtained. Total and differential cell count, absorbance, albumin concentration, concentrations of tumor necrosis factor (TNF)-alpha, interleukin (IL)-6 and cytokine-induced neutrophil chemoattractant (CINC) in BALF, wet and dry weight (W/D) ratio were measured. Platelet count and fibrin degradation product (FDP) in peripheral blood were also measured. HCl instillation markedly increased these values in BALF as well as W/D ratio. APC attenuated the parameters increased by HCl-induced lung injury in rats. However, HCl instillation and APC treatment did not cause significant changes in platelet count and FDP compared with the control. We conclude that APC treatment protected the rats against HCl-induced lung injury and that this action seemed to be due to the anti-inflammatory properties of this protein rather than its anti-coagulant effects.
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PMID:Activated protein C attenuates acid-aspiration lung injury in rats. 1577 12

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