UNIPROT:P00750 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P00750 (PLA)
16,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Plasminogen activator inhibitor-1 (PAI-1) is a primary endogenous inhibitor of tissue-type plasminogen activator (t-PA). In this study, we examined the effects of oversulfated fucoidan (OSF) derivatives and heparin on lipopolysaccharide (LPS)-induced release of PAI-1 antigen from cultured human umbilical vein endothelial cells (HUVEC). Addition of LPS (10 micrograms/ml) enhanced the release of PAI-1 by HUVEC but not of t-PA antigen. At 18 h, a 2.4-fold increase in the extracellular PAI-1 level was observed. The increased PAI-1 level was reduced to control level by the simultaneous addition of 10 micrograms/ml of OSF or heparin. The suppressive effect of native fucoidan was negligible. We also examined the molecular size effect of OSF, using 10-20, 20-40, and 40-60 kDa fragments. The result indicated that these fragments were effective as well as the 100-130 kDa form of OSF, hence suggesting an important role of the degree of sulfation. Interleukin-1 beta (IL-1 beta) is a potent inducer of PAI-1 in cultured HUVEC. Heparin, OSF, and its fragments did not suppress the IL-1 beta-induced release of PAI-1 antigen. Treatment of HUVEC with heparitinase or monoclonal antibody against heparin sulfate proteoglycan (HSPG) resulted in a complete loss of its ability to enhance PAI-1 release in response to LPS stimulation, while the chondroitinase ABC treatment hardly affected the PAI-1 production. These results suggest that HSPG is involved in the initial binding of LPS to HUVEC. The suppressive effects of OSF and heparin on LPS-induced PAI-1 release may result from the inhibition of LPS binding to the cell surface HSPG.
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PMID:Oversulfated fucoidan and heparin suppress endotoxin induction of plasminogen activator inhibitor-1 in cultured human endothelial cells: their possible mechanism of action. 757 76

Tera 2 human embryonal carcinoma cells proliferate rapidly in culture but are capable of differentiating into quiescent cells with neuronal features. We have characterized the effects of exogenous and endogenous fibroblast growth factors on the proliferation of differentiating Tera 2 cells. Exogenous basic fibroblast growth factor (bFGF) stimulated DNA synthesis and induced the proliferation-associated antigen Ki 67 in differentiated Tera 2 cells. Heparin-binding growth factors isolated from the undifferentiated cells excerted a similar stimulatory effect on their differentiated derivatives. The functional potential of these endogenous growth factors was further demonstrated by their ability to stimulate plasminogen activator production by capillary endothelial cells. A major part of the growth promoting activity was removed by absorption with immobilized bFGF antibodies. bFGF was also detected in Tera 2 cells by immunoblotting. The production of heparin-binding growth-promoting activity decreased during differentiation. The results demonstrate a potential role for heparin-binding growth factors in the autocrine or paracrine growth regulation of teratocarcinoma cells.
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PMID:Fibroblast growth factor-mediated stimulation of differentiating teratocarcinoma cells: evidence for paracrine growth regulation. 758 3

The PTCA procedure fails in 30-50% of patients due to late restinosis, meaning that this is a problem of 100,000-150,000 people per year in the USA alone. It has been found that heparin and low-molecular-weight heparin (LMWH) have an inhibitory effect on smooth muscle cell (SMC) proliferation and migration, the major causes of restinosis. However, little is known about the toxicity and side effects of these drugs when used for a long period as may be required for prophylaxis of PTCA restinosis. To investigate possible side effects, non-human primates received daily injections of 1 mg/kg s.c. LMWH (Mono-Embolex) over a 12-week period. The hemostatic system was monitored through measurement of ACT-celite, APTT, Heptest, TT(10U/mL), TFPI, Anti-IIa activity, Anti-Xa activity, ACA-Heparin, AT III, factor VIII R:Ag, fibrinogen, and thrombomodulin levels. Elisa tests for t-PA, PAI-1, u-PA, FgDP, TDP, and D-Di levels were used for measurements of fibrinolytic activity. Increased values of ACT, APTT, Heptest, TT, Anti-IIa, Anti-Xa, ACA-Heparin, and TFPI were observed four hours after LMWH injections. AT III, vWFAg, fibrinogen and thrombomodulin showed no change from the pre-study baseline. An accumulation effect was seen in the APTT and Heptest over the 12 weeks. After the first week the blood levels of Anti-IIa activity remained elevated at 20% inhibition rather than 0% 24 hrs after drug administration. This activity slowly decreased after discontinuation of drug. The Anti-Xa blood level activity remained elevated at 40% inhibition 24 hrs after drug administration 2 weeks into the study, and this activity was detectable even 2 weeks after cessation of drug administration. There was increasing activity of the fibrinolytic system with LMWH treatment. After two weeks t-PA increased two-fold to 6 ng/mL but returned to baseline at six weeks. There was a corresponding increase of the TDP but not a clear increase in D-Di and FgDP. The increase of u-PA was limited to the first days of LMWH treatment only. The PAI-1 activity increased gradually over the entire study period. No bleeding complications occurred throughout the study. The long-term administration of Mono-Embolex as projected for the use in the prophylaxis of restinosis following PTCA appears to be safe for patients.
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PMID:Evaluation of hemostatic and fibrinolytic alterations associated with daily administration of low-molecular-weight heparin for a 12-week period. 766 Jan 45

Direct inhibition of thrombin with agents such as hirudin and argatroban reduces reocclusion rates during experimental coronary thrombolysis. We compared the adjunctive potential of the tripeptide thrombin inhibitor D-methyl-phenylalanyl-prolyl-arginal (LY294468) during thrombolysis with tissue-type plasminogen activator (t-PA) with the less specific tripeptide thrombin inhibitor Boc-D-phenylalanyl-prolyl-arginal (LY178207) and the standard anticoagulant heparin. The left circumflex coronary artery (LCX) was isolated proximal to the first main branch, and coronary blood flow (CBF) was measured in 26 anesthetized dogs. Thrombogenesis was initiated by electrolytic injury of the intimal surface of the artery, producing an occlusive thrombus. Thrombolytic/adjunctive therapy was started 1 h later in the following groups: (a) t-PA alone (0.9 mg/kg, 1-h infusion), (b) t-PA + LY294468 (0.5 or 1 mg/kg/h, 2-h infusion), (c) t-PA + LY178207 (0.5 or 1 mg/kg/h, 2-h infusion), and (d) t-PA + heparin (80 U/kg bolus + 30 U/kg/h, 2-h infusion). LY294468 provided antireocclusive efficacy (time to reocclusion = > 200 min as compared with 65 min for t-PA alone; six of nine patent vessels vs. zero of six, respectively, at the end of the experiment), with no bleeding liability during t-PA-induced thrombolysis. Heparin and LY178207 were ineffective adjunctive agents. Heparin, however, significantly increased template bleeding times. LY294468 was effective as an adjunctive agent during thrombolysis and may represent a safer (less bleeding) and more effective adjunctive agent than heparin.
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PMID:Reversible tripeptide thrombin inhibitors as adjunctive agents to coronary thrombolysis: a comparison with heparin in a canine model of coronary artery thrombosis. 768 4

Adjunctive therapy for acute myocardial infarction should include aspirin, beta-adrenergic blocking agents, and, in most patients, consideration of the use of angiotensin-converting enzyme inhibitors, especially if left ventricular function is reduced. Heparin has an important adjunctive role in enhancing early vessel patency in patients who receive tissue-type plasminogen activator and in decreasing the frequency of reocclusion of an infarct-related artery during any thrombolytic therapy. Heparin must also be administered to all patients who undergo primary angioplasty. Intravenously administered nitroglycerin and orally administered nitrates are probably most effective in patients with symptomatic ischemia. Calcium channel blockers and prophylactic antiarrhythmic agents are not indicated for most patients with acute myocardial infarction. Currently, insufficient evidence is available to recommend the widespread use of intravenously administered magnesium sulfate in the setting of acute myocardial infarction. In patients with ischemic pain, judicious intravenous administration of morphine can provide relief. Use of warfarin sodium should be reserved for patients at risk for left ventricular mural thrombus. Although the use of lipid-lowering agents after myocardial infarction has been controversial, recent studies have demonstrated the importance of such therapy for secondary prevention of death and morbidity.
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PMID:Adjunctive therapy in the management of patients with acute myocardial infarction. 773 Dec 56

Heparin is a potent inhibitor of the proliferation and migration of vascular smooth muscle cells. This agent selectively inhibits the transcription of tissue-type plasminogen activator and interstitial collagenase, probably by decreasing the binding of activator protein-1 (AP-1) to phorbol ester-responsive elements in the promoters of these genes. Decreased AP-1 binding is not due to a direct inhibition by heparin, since heparinase digestion of nuclear extracts prepared from heparin-treated smooth muscle cells does not restore AP-1 binding activity. Treatment of cells with heparin suppresses the expression of Jun B, one of the components of AP-1. The major effect of heparin is at the level of posttranslational modification of Jun B. Results from pulse-chase labeling experiments show that the newly synthesized Jun B is rapidly converted to a higher-molecular-weight form and that conversion is suppressed by heparin. Evidence is presented suggesting that the heparin-inhibited event is phosphorylation of Jun B.
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PMID:Heparin decreases activator protein-1 binding to DNA in part by posttranslational modification of Jun B. 801 74

The present study was designed to investigate whether medium-term, low-dose heparin treatment is able to affect the fibrinolytic system. In a randomized cross-over study 10 asymptomatic patients with previous (1-6 years) myocardial infarction underwent two sequential 15-day treatments, respectively, on heparin and on placebo (saline solution), preceded and separated by 10-day wash-out periods. Heparin (as calcium heparin, 12,500 IU in 0.5 ml) and saline (0.5 ml) were subcutaneously administered once a day at 8 a.m. Blood samples for fibrinolysis studies were withdrawn on the first and 15th day of each period immediately before and 4 h after heparin or saline administration before and after 10 min venous occlusion (VO) respectively. Four hours after the first heparin administration tissue plasminogen activator antigen (t-PA ag) levels significantly increased with respect to saline administration (p < 0.01 and p < 0.05, respectively). After 15-day heparin treatment a decrease in euglobulin lysis time (p < 0.05) and an increase in t-PA activity (act) (p < 0.05) and in t-PA ag (p < 0.01) in comparison with placebo were observed before VO. No statistically significant changes in plasminogen activator inhibitor-1 (PAI-1) levels were found. The variations of fibrinolytic system activity induced by heparin treatment were more marked when evaluated after VO. These results indicate that medium-term low-dose heparin treatment increases t-PA ag formation and/or release with consequent t-PA act increase.
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PMID:Effect of low-dose heparin treatment on fibrinolysis in patients with previous myocardial infarction. 803 36

Newly developed synthetic and recombinant thrombin inhibitors possess strong anticoagulant effects. Despite these effects, interactions of these agents with enzymes in the fibrinolytic network result in the modulation of such proteases as t-PA, u-PA and streptokinase. The inhibitory spectrum of several thrombin inhibitors [D-Phe-Pro-Arg-H(GYKI 14166), D-MePhe-Pro-Arg-H(GYKI 14766), Boc-D-Phe-Pro-Arg-H (GYKI 14451), Ac-D-Phe-Pro-boroArg-OH (DuP 714), recombinant hirudin (r-Hir) and unfractionated porcine mucosal heparin complexed with antithrombin III (Heparin/AT-III)] was studied towards various serine proteases such as tissue plasminogen activator (t-PA), plasmin, plasminogen/streptokinase complex, urokinase and kallikrein. Aprotinin was also studied in the same systems as the thrombin inhibitors. All four tripeptide derivatives were found to inhibit t-PA, plasmin and plasminogen/streptokinase complex at micromolar concentrations (IC50: 0.57 mM-3.3 microM). Boc-D-Phe-Pro-Arg-H and Ac-D-Phe-Pro-boroArg-OH also inhibited urokinase, while Ac-D-Phe-Pro-boroArg-OH inhibited kallikrein as well (IC50: 0.15 mM-16 microM). In contrast, r-Hir and Heparin/AT-III did not inhibit any of these enzymes at millimolar concentrations (IC50 > or = 1 mM). Aprotinin inhibited plasmin, plasminogen/streptokinase complex and kallikrein at micromolar concentrations (IC50: 3.1-0.85 microM). In a rabbit thrombolysis model, where pre-formed clots are lysed by streptokinase, simultaneous administration of D-MePhe-Pro-Arg-H or Ac-D-Phe-Pro-boroArg-OH, at concentrations approximately 1 mumol/kg, i.v. resulted in complete inhibition of the fibrinolytic process. Aprotinin at 0.1 mumol/kg, i.v. produced similar inhibition. These results demonstrate that thrombin inhibitors may exert significant antiprotease actions against various fibrinolytic enzymes.
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PMID:Fibrinolytic compromise by simultaneous administration of site-directed inhibitors of thrombin. 804 88

Heparin inhibits the migration and proliferation of arterial smooth muscle cells and modifies the extracellular matrix. These effects may be the result of heparin's effects on proteinases that degrade the matrix. We have previously reported that heparin inhibits the induction of tissue-type plasminogen activator and interstitial collagenase mRNA. We have investigated the possibility that heparin affects other members of the matrix metalloproteinase family. Phorbol ester increased the levels of mRNA of collagenase, 92-kD gelatinase and stromelysin as well as the synthesis of these proteins. These effects were inhibited by heparin, but not by other glycosaminoglycans, in a dose-dependent manner. The induction of these matrix metalloproteinases was also inhibited by staurosporine and pretreatment with phorbol ester indicating the involvement of the protein kinase C pathway. In contrast, the 72-kD gelatinase was expressed constitutively and was not affected by phorbol ester or heparin. Tissue inhibitor of metalloproteinase-1 was expressed constitutively and was slightly increased by phorbol ester. It was not affected by heparin. Thus, heparin inhibits the production of four proteinases (tissue plasminogen activator, collagenase, stromelysin and 92-kD gelatinase) that form an interdependent system capable of degrading all the major components of the extracellular matrix.
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PMID:Heparin inhibits the induction of three matrix metalloproteinases (stromelysin, 92-kD gelatinase, and collagenase) in primate arterial smooth muscle cells. 818 30

The history of the antithrombotic agents--aspirin, heparin, warfarin, and the thrombolytics--is a rich and lively odyssey of serendipity, perseverance, vision, and conflict involving a number of striking personalities. The history of aspirin spans ages and continents from Hippocrates' analgesic for women in labor to the rediscovery of the white willow bark by English country scholar Reverend Edward Stone. Bayer chemist Felix Hoffmann reinvented aspirin for his ailing father; suburban physician L.L. Craven pioneered the prophylactic antithrombotic uses of aspirin; and Sir John Vane elucidated aspirin's mechanism of action as the inhibition of prostaglandin synthetase. Heparin was discovered by McLean, working as a medical student in 1915 in search of a pure procoagulant in dog liver. His original impure material differed somewhat from today's heparin, but purified heparin was rapidly accepted for a myriad of clinical uses; to this day, diverse new properties of this complex glycosaminoglycan continue to be elucidated. The oral anticoagulants emerged from veterinary research in the 1920s on a hemorrhagic disorder afflicting cattle that consumed spoiled sweet clover hay. Several chance encounters led Karl Link and his University of Wisconsin team to the identification of dicumarol as the offending agent in 1939 and its widespread therapeutic use by Wright and others in the 1940s. Link later developed warfarin as a rodenticide, but its use in humans soon followed in the 1950s. Vitamin K was discovered in the 1930s; its involvement in the mechanism of the anticoagulant agents was not delineated until the 1970s. The intrinsic ability of clotted blood to liquify and the fibrinolytic properties of normal urine were noted in the 1800s. Tillett and Sherry's group stumbled on the fibrinolytic properties of streptokinase in the 1930s and pioneered the therapeutic use of streptokinase in the 1940s and of urokinase in the 1960s. Several teams found tissue-type plasminogen activator in various body sites beginning in the 1940s, leading to its cloning and widespread use in the 1980s; anisoylated plasminogen-streptokinase activator complex is an example of rational drug design. The discoverers of these diverse agents have not only provided physicians with a potent armamentarium of antithrombotic drugs but also helped elucidate much basic science and vividly demonstrated the merits of perseverance, independent thought, and adherance to the scientific method.
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PMID:History of drugs for thrombotic disease. Discovery, development, and directions for the future. 828 78

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