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:C0151744 (myocardial ischemia)
31,282 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A characterization of genes B13R (SPI-2) and B22R (SPI-1) from vaccinia virus strain Western Reserve (WR) is presented. These genes are transcribed early during infection and the predicted encoded proteins show similarity to the superfamily of serine protease inhibitors (serpins). The 5' transcriptional initiation site of each gene was mapped by primer extension experiments to 71-72 and 31 nucleotides upstream of the B13R and B22R open reading frames (ORFs), respectively. Each ORF was expressed in Escherichia coli and specific antisera were raised against the protein produced. These antisera were used to identify the B13R- and B22R-encoded proteins in vaccinia virus-infected cells as stable, intracellular, nonglycosylated proteins of M(r) 38.5K and M(r) 40K, respectively. The B22R gene product was detected in all orthopoxviruses tested including cowpox, rabbitpox, and vaccinia strains WR, Copenhagen, Tashkent, Tian Tan, Lister, Wyeth, IHD-J, and IHD-W. In contrast, the B13R gene product had a more limited distribution and was not detected in Copenhagen, Tashkent, Lister, and Tian Tan. Viable virus deletion mutants that lacked only B13R or B22R coding sequences (delta B13R and delta B22R) and revertant viruses in which the deleted gene was restored were constructed by transient dominant selection. The growth of the deletion mutants in cell culture was indistinguishable from that of wild-type virus. Additionally the virulence of each deletion mutant was indistinguishable from wild-type and revertant viruses in a murine intranasal model.
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PMID:Vaccinia virus serpins B13R (SPI-2) and B22R (SPI-1) encode M(r) 38.5 and 40K, intracellular polypeptides that do not affect virus virulence in a murine intranasal model. 783 69

Cardiopulmonary bypass has been shown to activate various inflammatory cascades in the body, resulting in pathophysiological changes that may affect patient outcome after cardiac surgery. Many of these inflammatory cascades are enzyme mediated, involving serine proteases. This report reviews the mechanisms of bypass-mediated activation of the inflammatory cascades and outlines the role of serine protease inhibitors in ameliorating the consequences of the inflammatory response. Experimental data are reviewed on the action of aprotinin in inhibiting the intrinsic coagulation system and in limiting the contact activation of blood platelets and leukocytes. Also reviewed is the role of aprotinin in impacting the incidence of perioperative myocardial ischemia and the central nervous system dysfunction and stroke that are not infrequent complications of surgery with cardiopulmonary bypass.
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PMID:Cardiopulmonary bypass and the inflammatory response: a role for serine protease inhibitors? 910 10

We determined whether local bradykinin production modulates cardiac adrenergic activity. Depolarization of guinea pig heart sympathetic nerve endings (synaptosomes) with 1 to 100 mmol/L K+ caused the release of endogenous norepinephrine (10% to 50% above basal level). This release was exocytotic, because it depended on extracellular Ca2+, was inhibited by the N-type Ca(2+)-channel blocker omega-conotoxin and the protein kinase C inhibitor Ro31-8220, and was potentiated by the neuronal uptake-1 inhibitor desipramine. Typical of adrenergic terminals, norepinephrine exocytosis was enhanced by activation of prejunctional angiotensin AT1-receptors and attenuated by adrenergic alpha 2-receptors, adenosine A1-receptors, and histamine H3-receptors. Exogenous bradykinin enhanced norepinephrine exocytosis by 7% to 35% (EC50, 17 nmol/L), without inhibiting uptake 1. B2-receptor, but not B1-receptor, blockade antagonized this effect. The kininase II/angiotensin-converting enzyme inhibitor enalaprilat and the addition of kininogen or kallikrein enhanced norepinephrine exocytosis by approximately equal to 6% to 40% (EC50, 20 nmol/L) and approximately equal to 25% to 60%, respectively. This potentiation was prevented by serine protease inhibitors and was antagonized by B2-receptor blockade. Therefore, norepinephrine exocytosis is augmented when bradykinin synthesis is increased or when its breakdown is inhibited. This is the first report of a local kallikrein-kinin system in adrenergic nerve endings capable of generating enough bradykinin to activate B2-receptors in an autocrine/paracrine fashion and thus enhance norepinephrine exocytosis. This amplification process may operate in disease states, such as myocardial ischemia, associated with severalfold increases in local kinin concentrations.
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PMID:Bradykinin B2-receptor activation augments norepinephrine exocytosis from cardiac sympathetic nerve endings. Mediation by autocrine/paracrine mechanisms. 935 50

Total dietary fat intake is an important determinant of factor VII coagulant activity, a hemostatic risk factor for fatal ischemic heart disease in middle-aged men. This association has a long-term effect by which a high-fat diet increases plasma factor VII antigen concentration, and an acute effect whereby a small proportion of factor VII is converted from its proenzyme to active serine protease for several hours postprandially. In adults whose usual diet is rich in long-chain saturated fatty acids, postprandial activation of factor VII occurs irrespective of the fatty acid composition. The underlying mechanism appears to require lipolysis and the presence of another coagulant protein, factor IX. There is limited evidence that factor VII activation after a meal rich in polyunsaturated fatty acid is blunted when the background diet also has a high content of polyunsaturated fatty acid. Meals rich in medium-chain triacylglycerols do not induce factor VII activation. The effects of dietary enrichment with n-3 fatty acids on factor VII are uncertain. All studies have been confined to the fasting state, and only one suggested changes consistent with factor VII activation. Fibrinogen concentration, another major hemostatic risk factor for ischemic heart disease, is uninfluenced by dietary fat content or composition, the one exception being inconsistent reports of a reduction after dietary enrichment with n-3 fatty acids. Overall, the evidence so far indicates that total dietary fat intake is more important than dietary fat composition for factor VII and by implication its attendant risk of fatal ischemic heart disease in high-risk populations.
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PMID:Effects of diet composition on coagulation pathways. 949 67

Functional inhibition of tissue factor (TF) has been shown to improve coronary blood flow after myocardial ischemia/reperfusion (I/R) injury. TF initiates the coagulation protease cascade, resulting in the generation of the serine protease thrombin and fibrin deposition. Thrombin can also contribute to an inflammatory response by activating various cell types, including vascular endothelial cells. We used a rabbit coronary ligation model to investigate the role of TF in acute myocardial I/R injury. At-risk areas of myocardium showed increased TF expression in the sarcolemma of cardiomyocytes, which was associated with a low level of extravascular fibrin deposition. Functional inhibition of TF activity with an anti-rabbit TF monoclonal antibody administered either 15 minutes before or 30 minutes after coronary ligation reduced infarct size by 61% (P = 0.004) and 44% (P = 0.014), respectively. Similarly, we found that inhibition of thrombin with hirudin reduced infarct size by 59% (P = 0.014). In contrast, defibrinogenating the rabbits with ancrod had no effect on infarct size, suggesting that fibrin deposition does not significantly contribute to infarct size. Functional inhibition of thrombin reduced chemokine expression and inhibition of either TF or thrombin reduced leukocyte infiltration. We propose that cardiomyocyte TF initiates extravascular thrombin generation, which enhances inflammation and injury during myocardial I/R.
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PMID:Inhibition of the tissue factor-thrombin pathway limits infarct size after myocardial ischemia-reperfusion injury by reducing inflammation. 1110 58

Myocardial ischemia-reperfusion (I/R) is associated with the activation of matrix metalloproteinases (MMPs) and serine proteases. We hypothesized that activation of MMPs and the serine protease plasmin contribute to early cardiac myocyte death following I/R and that broad-spectrum protease inhibition with doxycycline (DOX) preserves myocyte viability. Rats treated daily with or without DOX beginning 48 h prior to experimentation were subjected to 30 min of coronary occlusion and 2 days of reperfusion. DOX pre-treatment reduced infarct size by 37%. DOX attenuated increases in MMP-9 and plasmin levels as determined by gelatin zymography and immunoblot, respectively. Neutrophil extravasation was unaltered by DOX as assessed by myeloperoxidase (MPO) activity. To examine the contribution of MMP-9 and plasmin to myocyte injury, cultures of neonatal rat ventricular myocytes (NRVMs) were treated for 48 h with 83 kDa MMP-9 or plasminogen in the presence or absence of DOX. MMP-9 treatment did not affect myocyte viability. Plasminogen treatment led to increased plasmin activity, resulting in loss of beta1-integrin, NRVM detachment and apoptosis. DOX co-treatment inhibited plasmin activity and preserved NRVM attachment, whereas co-treatment with the broad-spectrum MMP inhibitor GM6001 had no effect. These results indicate that plasmin causes disruption of myocyte attachment and viability independently of MMP activation in vitro and that inhibition of plasmin by DOX may reduce I/R-induced myocyte death in vivo through the inhibition of plasmin.
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PMID:Reduction of myocardial infarct size by doxycycline: a role for plasmin inhibition. 1579 48

Animal data strongly support a role for inflammation in myocardial ischemia reperfusion injury. Attempts at cardioprotection by immunomodulation (such as with the specific C5 antibody pexelizumab) in humans have been disappointing. We hypothesized that a broader spectrum antiinflammatory agent might yield successful cardioprotection. The serine protease inhibitor nafamostat (FUT-175), which is already in clinical use, is a potent antiinflammatory synthetic serine protease inhibitor with anticomplement activity that we tested in a well-established rabbit model of 1 hour of myocardial ischemia followed by 3 hours of reperfusion. Compared to vehicle-treated animals, nafamostat (1 mg/kg of body weight) administered 5 minutes before reperfusion significantly reduced myocardial injury assessed by plasma creatine kinase activity (38.1 +/- 6.0 versus 57.9 +/- 3.7I U/g protein; P < 0.05) and myocardial necrosis (23.6 +/- 3.1% versus 35.7 +/- 1.0%; P < 0.05) as well as myocardial leukocyte accumulation (P < 0.05). In parallel in vitro studies, Nafamostat was a significantly more potent broad spectrum complement suppressor than C1 inhibitor. Nafamostat appears to have capability as an inhibitor of both complement pathways and as a broad-spectrum antiinflammatory agent by virtue of its serine protease inhibition. Administration of nafamostat before myocardial reperfusion after ischemia produced significant, dose-dependent cardioprotection. Reduced leukocyte accumulation and complement activity seem involved in the mechanism of this cardioprotective effect.
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PMID:Serine protease inhibitor nafamostat given before reperfusion reduces inflammatory myocardial injury by complement and neutrophil inhibition. 1867 Mar 64

A plethora of apoptotic stimuli converge on the mitochondria and affect their membrane integrity, thereby eliciting release of multiple death-promoting factors residing in the mitochondrial intermembrane space into the cytosol. Among the death-promoting factors, a serine protease, high temperature requirement A2 (HtrA2) has drawn attention as a key player in the apoptosis pathways in different pathological conditions including myocardial ischemia/reperfusion injury. Heart ischemia/reperfusion results in HtrA2 translocation from the mitochondria to the cytosol, where it promotes cardiomyocyte apoptosis via a protease activity-dependent and caspase-mediated pathway. Once released, cytosolic HtrA2 causes X-chromosome-linked inhibitor of apoptosis protein (XIAP) degradation, caspase activation, and subsequent apoptosis. Consistent with the hypothesis, inhibition of HtrA2 improved postischemic myocardial contractile functions along with reduction of myocardial infarct size. The precise mechanism underlying HtrA2-induced apoptosis in mammalian cells has been studied through biochemical, structural, and genetic studies, in which HtrA2 promotes proteolytic activation of caspases through multiple pathways in heart ischemia. Therapeutic interventions that inhibit HtrA2 expression, translocation, or protease activity (such as by using the ucf-101 inhibitor) may provide an attractive therapeutics in the treatment of cardiovascular diseases.
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PMID:Activation of HtrA2, a mitochondrial serine protease mediates apoptosis: current knowledge on HtrA2 mediated myocardial ischemia/reperfusion injury. 1878 92

Myocardial ischemia and other acute coronary syndromes are leading causes of death worldwide, and often result from a thrombus that blocks an atherosclerotic coronary artery. A key enzyme in thrombus formation is the serine protease thrombin, which is responsible for both the conversion of soluble fibrinogen into insoluble fibrin, as well as the activation of the GPCRs, PAR1 and PAR4, which stimulate platelet aggregation. Thus, thrombin is an attractive target for anticoagulant and antithrombotic therapy. Previous studies in our laboratory led to the development of lead compound FM 19 (D-Arg-Oic-Pro-D-Ala-Phe(p-Me)-NH2), which shows modest potency as a thrombin inhibitor. The recently determined X-ray structure of FM 19 in the active site of thrombin has revealed potential sites for modification to improve potency. This study reports replacements to the first residue (D-Arg1) of FM 19, which seek to improve potency by removing the N-terminal amine to eliminate an adverse electrostatic interaction, and alterations to the length of the side chain to eliminate an unfavorable eclipsed conformation observed in the X-ray structure. This study produced two compounds, 1 and 9, with improved alpha-thrombin inhibition (IC50 values of 0.66 +/- 0.20 microM and 0.57 +/- 0.12 microM, respectively).
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PMID:Structure-based design of residue 1 analogs of the direct thrombin inhibitor pentapeptide FM 19. 1995 32

Apoptosis plays an important role in cardiovascular diseases such as atherosclerosis, ischemic heart disease, and congestive heart failure. Previous studies have demonstrated that oxidative stress, physiological stress, and inflammatory cytokines such as tumor necrosis factor and Fas ligand are involved in apoptosis of cardiovascular system. We demonstrate that another apoptosis-related pathway, i.e. granzyme B/perforin system is involved in cardiovascular diseases. Expression of granzyme B, a member of serine protease family is increased in acute coronary syndrome, coronary artery disease with end-stage renal disease, and subacute stage of acute myocardial infarction. Although granzyme B is extensively researched in immunological disorders, the role of granzyme B/perforin system was not clear in the cardiovascular field. In addition, little is known regarding the inhibition of granzyme B system in the clinical situation. In this review we demonstrate recent findings of granzyme B in cardiovascular diseases and possible therapeutic applications of inhibiting the granzyme B/perforin system.
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PMID:Granzyme B as a novel factor involved in cardiovascular diseases. 2265 95


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