Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.5 (thrombin)
 33,306 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of coronary thrombolytic therapy with urokinase on the intrinsic hemostatic and fibrinolytic states were investigated by determining several markers for hemostatic and fibrinolytic activities in 6 patients with acute myocardial infarction who underwent coronary thrombolysis with urokinase. The markers for hemostasis and fibrinolysis were: markers for plasmin generation [alpha 2-plasmin inhibitor (alpha 2-PI), plasminogen, plasmin alpha 2-PI complex (PIC)]; markers for fibrinolysis [fibrin/fibrinogen degradation products-E fragment (FDP-E), FDP D-D dimer (D dimer), fibrinogen]; markers for hemostatic activity (prothrombin time (PT), antithrombin III (AT-III), protein C); markers for thrombin generation [thrombin antithrombin III complex (TAT)]; markers for intrinsic fibrinolytic activity [tissue plasminogen activator plasminogen activator inhibitor complex (TPA PAI complex)]. These markers were measured before, at 1 to 2 hours intervals during first 6 hours, daily during the next 3 days, and subsequently on the 7th and the 14th day after urokinase therapy. Fibrinolysis (determined by increased D dimer) occurred only when alpha 2-PI became unmeasurable with 96 x 10(4) or more units of urokinase administration, then persisted for more than 2 hours. TAT increased from 13.1 +/- 15.4 to 70.8 +/- 65.8 ng/ml soon after fibrinolysis occurred, indicating that thrombin generation occurred at the same time as fibrinolysis. The TPA PAI complex level before urokinase administration (26.4 +/- 6.4 ng/ml) was greater than the normal upper limit, indicating increased intrinsic fibrinolytic activity, then decreased after urokinase administration. These findings suggested that urokinase administration might affect the intrinsic fibrinolytic activity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Serial changes in hemostatic and fibrinolytic states induced by coronary thrombolytic therapy]. 806 82

We measured various coagulable factors and molecular markers in plasma and serum in the disease group including DIC, DIC suspect, thrombosis, acute myocardial infarction, angina pectoris, sepsis, malignant tumor and type II diabetes and the healthy subject group, and surmised the intravascular coagulative-fibrinolytic activity in each disease group compared with the healthy group. Additionally we selected parameters useful for early detection of the pre-thrombotic state and hypercoagulable state. As a result, of the parameters for the coagulative system, those considered useful were the assay of soluble fibrin monomer complexes using the synthetic substrate (FM.Oita), assay of soluble fibrin monomer complexes using HPLC(SFMC.Oita) and thrombin-anti-thrombin III complex (TAT) in this order. Of the parameters for the fibrinolytic system, those considered useful were FDP assay using ELISA (FDP.Oita) and plasmin-alpha 2 plasmin inhibitor complex (PIC). This FDP.Oita had a considerably high detection sensitivity compared with the FDP assay (Diayatron Co.) using the latex photometric immunoassay which has been commercially available. When measurement was made with plasma and serum in the subject disease group as the sample by the high sensitivity assays mentioned above, it was made clear that both the coagulative activity and fibrinolytic activity are increased, albeit with some differences in intensity, in all the disease groups compared with the healthy group. In order for the hypercoagulable state and pre-thrombotic state to be detected, it is important to know the balance between the coagulative activity and fibrinolytic activity. According to the results of the present experiment, a significant directly proportional correlation was recognized between FM.Oita and FDP.Oita and between TAT and FDP.Oita. Therefore, examination of these ratios will be a more detailed indicator of coagulative-fibrinolytic activity than the TAT/PIC ratio, PAI-1/TPA ratio and ATIII/alpha 2 PI ratio hitherto in use. If useful molecular markers such as FM.Oita are measured over time in various cases and these data are compiled and analyzed statistically, it will not be long before the criteria for the hypercoagulable state and pre-thrombotic state are established.
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PMID:[Molecular marker for detecting hypercoagulable state]. 810 79

We examined the mechanisms of ATP release by human platelets using Ro-31-7549, a specific inhibitor of protein kinase C. Ro-31-7549 almost completely inhibited TPA-induced platelet aggregation and ATP release at 5-10 microM in washed platelets and in platelet-rich plasma. However, it suppressed thrombin- and U46619-induced ATP release by only 48% and 21%, respectively, and had little effect on aggregation in washed platelet suspensions containing serum or in platelet-rich plasma. The addition of GRGDS to prevent aggregation inhibited this residual thrombin-induced release by 53% and the residual U46619 release by 100% in the presence of Ro-31-7549. In washed platelet suspensions free of serum or plasma, Ro-31-7549 almost completely inhibited the ATP release and partially suppressed the aggregation induced by these agonists. These results suggested that there are protein kinase C-dependent and -independent mechanisms for ATP release by human platelets and that activation of the latter mechanism may depend on aggregation and plasma factors.
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PMID:Protein kinase C-dependent and -independent mechanisms of dense granule exocytosis by human platelets. 818 65

Prothrombin fragment 2 (the second kringle) has been co-crystallized with PPACK (D-Phe-Pro-Arg)-thrombin and the structure of the non-covalent complex has been determined and refined (R = 0.16) at 3.2 A resolution using X-ray crystallographic methods. The kringles interact with thrombin at a site that has previously been proposed to be the heparin binding region. The latter is a highly electropositive surface near the C-terminal helix of thrombin abundant in arginine and lysine residues. These form salt bridges with acidic side chains of kringle 2. Somewhat unexpectedly, the negative groups of the kringle correspond to an enlarged anionic center of the lysine binding site of lysine binding kringles such as plasminogen K1 and K4 and TPA K2. The anionic motif is DGDEE in prothrombin kringle 2. The corresponding cationic center of the lysine binding site region has an unfavorable Arg71Phe substitution but Lys35 is conserved. However, the folding of fragment 2 is different from that of prothrombin kringle 1 and other kringles: the second outer loop possesses a distorted two-turn helix and the hairpin beta-turn of the second inner loop pivots at V64 and D70 by 60 degrees. The Lys35 is located on a turn of the helix, which causes it to project into solvent space in the fragment 2-thrombin complex, thereby devastating the cationic center of the lysine binding site.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Structure of the non-covalent complex of prothrombin kringle 2 with PPACK-thrombin. 818 45

Treatment of porcine aortic endothelial cells with thrombin induced a time- and dose-dependent expression of preproendothelin-1 (PPET-1) mRNA. The thrombin-induced expression of PPET-1 mRNA was markedly inhibited by calphostin C, a specific inhibitor of protein kinase C, and phorbol 12-myristate 13-acetate (TPA) induced the expression of PPET-1 mRNA dose-dependently, but 4 alpha-phorbol 12, 13-didecanoate, an inactive enantiomer of phorbol ester, had no effect on the expression of PPET-1 mRNA. On the other hand, challenge of the endothelial cells with thrombin induced a marked and time-dependent increase in the binding activity of nuclear extract to the TPA-responsive element. Furthermore, thrombin elicits synthesis of c-Jun protein as well as triggering its dephosphorylation. From these results, it is concluded that thrombin-stimulated expression of PPET-1 mRNA in porcine aortic endothelial cells can be induced not only by c-Jun protein synthesis but also by initial dephosphorylation in response to activation of protein kinase C.
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PMID:The role of c-Jun protein in thrombin-stimulated expression of preproendothelin-1 mRNA in porcine aortic endothelial cells. 834 69

Both human and bovine prothrombin fragment 2 (the second kringle) have been cocrystallized separately with human PPACK (D-Phe-Pro-Arg)-thrombin, and the structures of these noncovalent complexes have been determined and refined (R = 0.155 and 0.157, respectively) at 3.3-A resolution using X-ray crystallographic methods. The kringles interact with thrombin at a site that has previously been proposed to be the heparin binding region. The latter is a highly electropositive surface near the C-terminal helix of thrombin abundant in arginine and lysine residues. These form salt bridges with acidic side chains of kringle 2. Somewhat unexpectedly, the negative groups of the kringle correspond to an enlarged anionic center of the lysine binding site of lysine binding kringles such as plasminogens K1 and K4 and TPA K2. The anionic motif is DGDEE in prothrombin kringle 2. The corresponding cationic center of the lysine binding site region has an unfavorable Arg70Asp substitution, but Lys35 is conserved. However, the folding of fragment 2 is different from that of prothrombin kringle 1 and other kringles: the second outer loop possesses a distorted two-turn helix, and the hairpin beta-turn of the second inner loop pivots at Val64 and Asp70 by 60 degrees. Lys35 is located on a turn of the helix, which causes it to project into solvent space in the fragment 2-thrombin complex, thereby devastating any vestige of the cationic center of the lysine binding site. Since fragment 2 has not been reported to bind lysine, it most likely has a different inherent folding conformation for the second outer loop, as has also been observed to be the case with TPA K2 and the urokinase kringle. The movement of the Val64-Asp70 beta-turn is most likely a conformational change accompanying complexation, which reveals a new heretofore unsuspected flexibility in kringles. The fragment 2-thrombin complex is only the second cassette module-catalytic domain structure to be determined for a multidomain blood protein and only the third domain-domain interaction to be described among such proteins, the others being factor Xa without a Gla domain and Ca2+ prothrombin fragment 1 with a Gla domain and a kringle.
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PMID:Structures of the noncovalent complexes of human and bovine prothrombin fragment 2 with human PPACK-thrombin. 838 13

Regulation of phospholipase D (PLD) activity was investigated in cultured monolayers of bovine pulmonary artery endothelial cells (BPAECs). Agonists such as bradykinin, histamine, vasopressin, alpha-thrombin, and adenosine triphosphate (ATP) stimulated up to 15-fold accumulation of phosphatidylethanol (PEt) in the presence of ethanol through PLD-catalyzed phosphatidyltransferase activity. To examine mechanisms of PLD regulation, we investigated the role of protein kinase C (PKC) and Ca2+ fluxes in agonist-induced PLD activation. The PKC activator 12-O-tetradecanoylphorbol-13-acetate (TPA, 100 nmol/L) produced up to a 25-fold increase in PEt formation in a time- and dose-dependent manner. PEt production was also stimulated by other cell-permeant PKC activators such as 1,2 dioctanoylglycerol and 1-oleyl-2-acetylglycerol, whereas inactive phorbol derivatives 4-alpha-phorbol-12,13-didecanoate and 4-beta-phorbol showed no effect. The effect of TPA on PEt accumulation was inhibited by the PKC inhibitors staurosporine (5 mumol/L, 95% inhibition) and sphingosine (10 mumol/L, 50% inhibition). TPA-induced PEt accumulation was almost completely abolished (> 95% inhibition) by PKC down-regulation accomplished by long-term treatment with 100 nmol/L TPA. In contrast, bradykinin- or ATP-induced phosphorus 32-labeled PA and [32P]-labeled PEt formation was only partially blocked (70% inhibition) by either staurosporine (10 mumol/L) or PKC down-regulation, suggesting that part of agonist-stimulated PLD activity may occur in the absence of PKC activation. An increase in Cai2+ appears to be involved in agonist-induced PLD activation as bradykinin-, ATP-, or Ca2+ ionophore-induced [32P]. PEt production was attenuated by either depletion of extra-cellular Ca2+ with EGTA or chelation of intracellular Ca2+ by BAPTA. TPA-mediated PEt accumulation was not affected by EGTA treatment, whereas BAPTA reduced TPA-mediated PEt formation by 50%. These results suggest that direct PKC activation is a potent stimulus for PLD activity and that the major pathway for agonist-induced PLD activation involves PKC activation and is dependent on an increase in intracellular Ca2+. Further, these studies suggest that agonist-induced PLD activation may also involve a PKC-independent mechanism.
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PMID:Agonist-induced activation of phospholipase D in bovine pulmonary artery endothelial cells: regulation by protein kinase C and calcium. 843 44

Mortality rates associated with cardiovascular disease (CVD) are high in long-term dialysis patients. Increased levels of plasma fibrinogen (FBG), coagulation factor VII (FVII), tissue plasminogen activator (t-PA), and plasminogen activator inhibitor-1 (PAI-1) as well as hyperlipidemia are regarded as important risk factors for CVD. To investigate whether there are differences in the risk of CVD between chronic hemodialysis (HD) and continuous ambulatory peritoneal dialysis (CAPD) patients, serum lipid levels and plasma FBG, FVII, t-PA, and PAI-1 levels were measured in 17 patients on HD and 17 patients on CAPD. FBG was measured by the thrombin time method, FVII activity (FVIIc) by the chromogenic prothrombin time method, and t-PA and PAI-1 activity by the chromogenic substrate assay. No difference was found in body mass index (BMI) between HD and CAPD patients. Total cholesterol (TC), TC/high-density lipoprotein (HDL)-C ratio, low-density lipoprotein (LDL)-C, and triglycerides (TG) were significantly increased, and HDL-C was significantly decreased in CAPD patients compared with HD patients. FBG and FVIIc were significantly elevated in CAPD patients compared with controls or HD patients. T-PA activities were significantly higher in HD and CAPD patients than in controls. CAPD patients showed significantly higher PAI-1 activities than controls or HD patients. Significant positive correlations were found between FBG or FVIIc and TC, between FBG and LDL-C or TG, and between FVIIc and LDL-C in these patients. T-PA showed significant negative correlations with FBG, PAI-1, TC, LDL-C, and TG. There was a significant positive correlation between PAI-1 and TG and a significant negative correlation between PAI-1 and HDL-C. We conclude that CAPD patients may have a greater risk of CVD than do HD patients, and that coagulation and fibrinolytic activity are correlated with lipid disorders in these patients.
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PMID:Fibrinogen, coagulation factor VII, tissue plasminogen activator, plasminogen activator inhibitor-1, and lipid as cardiovascular risk factors in chronic hemodialysis and continuous ambulatory peritoneal dialysis patients. 865 Dec 50

Since thromboembolic complications in transplanted patients are generally attributed to combined abnormalities in platelets and coagulo-lytic system, some hemostatic parameters tPA (tissue plasmogin activator):Ag and activity, its inhibitor-PAIAg and activity, tPA/PAI, thrombin-antithrombin (TAT) and plasmin-antiplasmin complexes (PAP), urokinase-uPA, euglobulin clot lysis time-ECLT, fibrinogen, plasminogen, protein C activity, D-dimer, prothrombin fragments1+2 (F1+2), fibrin monomers, fibronectin, lipoprotein-a, and von Willebrand factor(vWF), were evaluated using commercially available kits. The studies were performed on kidney transplant recipients treated with CsA, azathioprine and prednisone (n=21), and healthy volunteers (n=21). ECLT was significantly prolonged in kidney transplant recipients together with a rise in F1+2,lipoprotein-a, fibrinogen, fibronectin, and vWF when compared with controls. The TPA level was lower, whereas the PAI level was higher in kidney transplant recipients when compared with controls. In conclusion, CsA-treated kidney transplant recipients show evidence of pronounced impairment in fibrinolysis and endothelial damage in comparison with healthy volunteers.
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PMID:The coagulo-lytic system and endothelial function in cyclosporine-treated kidney allograft recipients. 882 84

Protein kinase C (PKC) is a family of serine/threonine protein kinase isoforms that is important to intracellular enzymes for both tyrosine kinase receptors and G protein coupled receptors. However, which isoforms are linked to which class of receptors in endothelial cell signaling is not known. Moreover, the PKC isoforms in endothelial cells have not been thoroughly characterized. We tested the hypothesis that specific PKC isoforms are involved in different signaling pathways. PKC isoform expression was assessed by using reverse transcription polymerase chain reaction and Western blotting. The spatial distribution of PKC after stimulation of the cells with basic fibroblast growth factor (bFGF) and thrombin was examined by using confocal microscopy. Expression of PKC alpha, delta, epsilon, theta, and zeta was detectable on both the mRNA and protein levels. In resting cells, PKC alpha and epsilon were mostly distributed in the cytosol, while PKC alpha and epsilon were also present in the nucleus. Nuclear immunoreactivity of PKC alpha and epsilon increased significantly between passages 1 and 3. The phorbol ester TPA induced a rearrangement of PKC delta and a translocation of PKC alpha and epsilon to the nucleus. Treatment of endothelial cells with TPA for 24 hours caused PKC alpha, delta, and epsilon to disappear, while PKC zeta was not influenced by TPA. bFGF induced a rapid assembly of PKC alpha along cytosolic structures, followed by a translocation of the isoform toward the perinuclear region and into the nucleus. bFGF had a smaller effect on PKC epsilon. In contrast, thrombin had a similar effect on nuclear translocation of PKC alpha, did not influence PKC epsilon, and induced a rapid nuclear translocation of PKC zeta. Thus, tyrosine kinase receptor activation via bFGF induced a rapid association of PKC alpha and epsilon with nuclear structures, while activation of the G protein-coupled thrombin receptor increased mostly nuclear PKC zeta. The translocation of PKC isoforms into the nucleus by growth-promoting factors may be important for the induction of endothelial cell growth.
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PMID:Endothelial cell tyrosine kinase receptor and G protein-coupled receptor activation involves distinct protein kinase C isoforms. 896 26


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