Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.68 (tissue plasminogen activator)
 11,311 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Although the efficacy of tissue-type plasminogen activator (t-PA) for coronary thrombolysis is well established, its direct cardioprotective effect - independent of its thrombolytic effect - is still controversial. In addition, the potentiation of t-PA's direct cardioprotective effect by thromboxane A2 synthetase inhibitor has recently been reported. In this study, the authors examined whether t-PA alone or in combination with DP1904, a thromboxane A2 synthetase inhibitor, is able to salvage ischemic myocardium via a direct action on myocardium. In addition, the effect of these interventions on intramyocardial hemorrhage in reperfused infarcts was assessed. A branch of the coronary artery of the rabbit was occluded for 30 mins and then reperfused for 72 h. Myocardial infarct size and 'area at risk' were determined by histology and fluorescent particles, respectively. The extent of intramyocardial hemorrhage was graded using scores. Rabbits were divided into three groups: control, t-PA and DP1904 plus t-PA. The t-PA was administered intravenously at 500 iu/kg/min for 30 mins starting 5 mins prior to reperfusion. DP1904 was injected intravenously at a dosage of 10 mg/kg every 24 h starting 2 hr prior to coronary occlusion. Mortality was similar and hemodynamic parameters and area at risk were comparable between all three groups. The myocardial infarct size as a percentage of area at risk was 44.5 +/- 3.8% (mean +/- standard error) (n = 9) in the control group, 41.6 +/- 4.6% in the t-PA group (n = 8) and 51.3 +/- 5.2% in DP1904 plus t-PA group (n = 8), not significantly different (ANOVA). Neither were the hemorrhage scores significantly different between the groups.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Tissue-type plasminogen activator alone or in combination with thromboxane A2 synthetase inhibitor for ischemic myocardium. 212 35

The deposition of fibrin in the peritoneal cavity leads to fibrous adhesion formation. Recombinant tissue plasminogen activator (rtPA), delivered locally, was investigated as a method of preventing adhesion formation. Six standardised areas of peritoneal ischaemia were formed in each of 36 male Wistar rats randomised to three intraperitoneal treatments: (A) no treatment control; (B) carboxymethylcellulose gel; (C) rtPA-carboxymethylcellulose gel combination. At 1 week all animals underwent relaparotomy and the number of ischaemic sites with an adhesion counted by an independent observer. rtPA-treated animals formed fewer adhesions compared with gel alone or controls (median number of adhesions 1.5 versus 2.5 versus 5, P < 0.001, ANOVA). Intraperitoneal rtPA in a slow-release formulation is able to reduce adhesion formation significantly in an animal model and may prove to have clinical benefit.
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PMID:Experimental adhesion prophylaxis with recombinant tissue plasminogen activator. 770 27

The purposes of this investigation were to determine: 1) whether the fibrinolytic responses to acute, submaximal exercise were best related to intensity, duration, or total caloric expenditure; and 2) whether the time of day exercise is performed affects the fibrinolytic response. Twelve physically active men (mean age = 34.8 +/- 4.0 yr) performed four 30-min exercise sessions: 50% VO2max, a.m. and p.m., and 80% VO2max, a.m. and p.m. Blood samples were analyzed for tissue plasminogen activator (TPA) activity and plasminogen activator inhibitor-1 (PAI-1) activity. Data were analyzed using a three-way ANOVA with repeated measures. TPA activity: preexercise TPA did not differ among the four sessions. TPA increased with exercise in all sessions except the 50% a.m. session. Exercise at 80% increased TPA more than 50% (P < 0.001) and evening sessions increased TPA more than morning sessions (P < 0.05). PAI-1 activity: preexercise PAI-1 activity was higher during the morning than evening and significantly decreased with exercise in all sessions except the 50% p.m. session. It was concluded that changes in fibrinolytic activity appear to be influenced primarily by exercise intensity rather than duration or total caloric expenditure. Additionally, time of day of exercise performance significantly influenced fibrinolytic activity.
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PMID:Effects of exercise intensity, duration, and time of day on fibrinolytic activity in physically active men. 780 43

We have previously shown that plasma levels of endothelium-derived tissue-type plasminogen activator (t-PA) increase during mental stress. The aim of the study was to investigate in vivo release in an intact human muscle vascular bed. Eleven healthy young males (22-36 yrs) were studied at rest and during 10 min of mental stress (forced arithmetic). Net release or uptake were assessed by arterio-venous (AV) concentration gradients across the forearm of t-PA antigen and t-PA activity, and plasminogen activator inhibitor antigen type 1 (PAI-1). Forearm blood flow was measured by venous occlusion plethysmography. At rest, there was a positive AV-difference of t-PA activity across the forearm indicating a net release of t-PA activity of approximately 3.7 fmol x min-1 x 100 ml-1 (Wilcoxon's signed rank test vs 0, p = 0.01). However, t-PA antigen showed a variable release pattern. On the average, there was a net release of 0.17 ng x min-1 x 100 ml-1 after 60 min of rest (Wilcoxon vs 0, p = 0.07). PAI-1 antigen showed net release at rest. In response to stress, forearm blood flow increased from 1.9 to 2.9 ml x min-1 x 100 ml-1 (ANOVA, p = 0.007), and net release of t-PA activity increased to 9.8 fmol x min-1 x 100 ml-1 (ANOVA, p = 0.01 compared with rest). Arterial and venous plasma t-PA levels also increased significantly during stress (ANOVA, p < 0.01). t-PA antigen showed a similar but less pronounced release pattern during stress.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:In vivo release of tissue-type plasminogen activator across the human forearm during mental stress. 783 66

Hypertriglyceridemia is linked to impaired fibrinolytic function, and lipid-lowering treatment with fibric acid derivatives could hypothetically improve fibrinolysis in this condition. We therefore conducted a double-blind, placebo-controlled, crossover study of gemfibrozil treatment on fibrinolytic function in 21 men with combined hyperlipoproteinemia. Measurements were performed at rest and during mental stress and after venous occlusion. The patients had clearly disturbed fibrinolytic function, with elevated plasminogen activator inhibitor-1 (PAI-1) activity at rest ( approximately 25 U/mL; reference, <15 U/mL). Gemfibrozil reduced plasma total and VLDL cholesterol as well as all triglyceride fractions, whereas HDL cholesterol increased (P <.001 for all). Total triglyceride levels were reduced by 57 +/- 4% (from 5.3 to 2.1 mmol/L). Fasting serum insulin levels were not altered by gemfibrozil treatment. Plasma levels of PAI-1 activity and tissue-type plasminogen activator (TPA) activity or antigen were unaffected by gemfibrozil treatment both at rest and during the provocations. The levels of D-dimer, plasmin/antiplasmin complex, and fibrinogen were also uninfluenced by gemfibrozil treatment. Mental stress elevated plasma TPA (P=.0036) and lowered PAI-1 (P=.0012) activity during placebo but not gemfibrozil treatment (P=.28 and P=.17, respectively), but treatment effects did not differ by ANOVA on delta values (ie, stress minus rest). Venous occlusion reduced PAI-1 activity, whereas TPA and plasmin/antiplasmin complex increased during both treatments. Thus, gemfibrozil treatment did not improve fibrinolysis or lower fibrinogen levels in men with combined hyperlipoproteinemia despite marked reduction of plasma triglyceride levels. It seems unlikely that improved fibrinolysis explains the primary preventive effect of gemfibrozil.
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PMID:Gemfibrozil treatment of combined hyperlipoproteinemia. No improvement of fibrinolysis despite marked reduction of plasma triglyceride levels. 862 72

The plasminogen activator (PA)-plasmin proteolytic system has recently received considerable attention because of its participation in a wide variety of biological activities and in pathological conditions involving tissue destruction. Excessive mechanical stress such as occlusal trauma is associated with alveolar bone loss in severe periodontitis. Therefore, mechanical stress may involve degradation of the extracellular matrix by occlusal trauma through activation of the PA-plasmin proteolytic system. We examined the effects of mechanical stress on PA activity, gene expressions of tissue type (t) PA, urokinase type (u) PA and PA inhibitor-1 (PAI-1) in human PDL cells. Human PDL cells were cultured on flexible-bottomed culture plates and placed on a Flexercell Strain Unit. The cells were flexed at 6 cycles (5 s strain, 5 s relaxation) at 9% and 18% elongation for 5 d. Application of tension-force induced significantly higher PA activity in stressed PDL cells than in non-stressed controls, and did so in a time- and magnitude-dependent manner (p < 0.001, ANOVA). Western-blot analysis revealed that the high level of activity was due to tPA and not uPA. Gene expression of tPA mRNA in stressed PDL cells, as examined by RT-PCR, increased on d 5. These findings suggest that tPA may be involved in periodontal metabolism in response to mechanical stress.
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PMID:Effect of tension-force on plasminogen activator activity from human periodontal ligament cells. 913 97

Systemic administration of desmopressin (DDAVP) induces increased plasma levels of tissue-type plasminogen activator (t-PA), coagulation factor VIII, and von Willebrand factor (vWF). However, the mechanisms behind these responses are not known. We tested the hypothesis that DDAVP acts as a local stimulator of acute endothelial release of t-PA and vWF independently of central pathways. Healthy, young, nonsmoking male volunteers were studied. In a first study (n = 7), DDAVP and placebo were administered as randomized single-blind stepwise intrabrachial artery infusions (0.7, 7.0, and 70 ng/min). In a another subset of subjects (n = 4), a constant-rate DDAVP infusion of 70 ng/min was administered for 20 minutes in the brachial artery of the nondominant arm with the dominant arm as control. To rule out that the observed t-PA release was flow-dependent, 4 additional subjects received stepwise intra-arterial infusions of both DDAVP (7.0, 21, and 70 ng/min) and sodium nitroprusside (SNP; 0.5, 2.5, and 10 micrograms/min). Brachial venoarterial plasma concentration gradients and forearm plasma flow were used to determine net release/uptake rates of t-PA and vWF. At baseline, the average net release rate of t-PA was 6.7 ng/min across the whole forearm vascular bed, whereas there was no detectable basal release of vWF. Stepwise infusion of DDAVP induced a massive regulated release of t-PA with a peak after 15 minutes on the highest dose-step (ANOVA; P < .0001). The average maximum net release rate was 178 ng/min, and the total amount of t-PA released was, on the average, 3,000 ng. The majority was released in its active form. Constant-rate DDAVP infusion again markedly increased t-PA release in the infusion arm but had no effect whatsoever in the control arm. In contrast, DDAVP did not stimulate a local release of vWF in either study. Central hemodynamics were unchanged during infusions despite a local vasodilatory response with DDAVP. Endothelium-independent flow stimulation by SNP did not elicit any local t-PA release. We conclude that DDAVP induces a massive acute flow-independent release of t-PA, without the simultaneous release of vWF, in the human forearm vascular bed. The lack of a t-PA response in the control arm, as well as the unaltered central hemodynamics with DDAVP, confirms that the observed regulated t-PA release is local and independent of central mechanisms.
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PMID:Evidence of a local mechanism for desmopressin-induced tissue-type plasminogen activator release in human forearm. 942 6

Increased plasma renin activity (PRA) has been associated with an increased risk of myocardial infarction (MI), whereas angiotensin-converting enzyme (ACE) inhibition appears to reduce the risk of recurrent MI in patients with left ventricular dysfunction. These observations may be partially explained by an interaction between the renin-angiotensin system (RAS) and fibrinolytic system. To test this hypothesis, we examined the effect of salt depletion on tissue-type plasminogen activator (tPA) antigen and plasminogen activator inhibitor-1 (PAI-1) activity and antigen in normotensive subjects in the presence and absence of quinapril (40 mg BID). Under low (10 mmol/d) and high (200 mmol/d) salt conditions there was significant diurnal variation in PAI-1 antigen and activity and tPA antigen. Morning (8 AM through 2 PM) PAI-1 antigen levels were significantly higher during low salt intake compared with high salt intake conditions (ANOVA, F=5.8, P=0.048). PAI-1 antigen correlated with aldosterone (r=0.56, P<10(-7)) during low salt intake. ACE inhibition significantly decreased 24-hour (ANOVA for 24 hours, F=6. 7, P=0.04) and morning (F=24, P=0.002) PAI-1 antigen and PAI-1 activity (F=6.48, P=0.038) but did not alter tPA antigen. Thus, the mean morning PAI-1 antigen concentration was significantly higher during low salt intake than during either high salt intake or low salt intake and concomitant ACE inhibition (22.7+/-4.6 versus 16. 1+/-3.3 and 16.3+/-3.7 ng/mL, respectively; P<0.05). This study provides evidence of a direct functional link between the RAS and fibrinolytic system in humans. The data suggest that ACE inhibition has the potential to reduce the incidence of thrombotic cardiovascular events by blunting the morning peak in PAI-1.
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PMID:Effect of activation and inhibition of the renin-angiotensin system on plasma PAI-1. 985 58

We have observed marked interindividual differences in release rates of tissue-type plasminogen activator (t-PA) among healthy subjects. The objective of the current study was to test the hypothesis that there is an association between a genetic variation at the t-PA locus and the in vivo release rate of t-PA. Fifty-one healthy males were studied at rest in the morning and 27 of these were also subjected to a mental stress test. Net release rates of total t-PA across the forearm vascular bed were calculated as the product of the venoarterial concentration gradient and forearm plasma flow. Zygosity for an Alu-repeat polymorphism in intron 8 of the t-PA gene was determined by a polymerase chain reaction. Basal t-PA release rates differed markedly by genotype (ANOVA, P<0.05); subjects homozygous for the insertion had a significantly higher release rate (mean 10.9 ng. min-1. L-1, n=19) than both heterozygotes (4.5 ng. min-1. L-1, n=26) and subjects homozygous for the deletion (0.9 ng. min-1. L-1, n=6). After 2 minutes of mental stress release rates had increased approximately 2-fold in all groups. Arterial and venous plasma levels of t-PA were unrelated to genotype. In conclusion, the current results provide the first evidence of an association between a common genetic variation at the t-PA locus and interindividual differences in net release rates of t-PA in vivo. The relationship is not reflected by circulating steady-state plasma levels and can thus not be disclosed by conventional venous plasma sampling.
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PMID:Gene polymorphism of t-PA is associated with forearm vascular release rate of t-PA. 997 31

Bradykinin stimulates tissue plasminogen activator (tPA) release in isolated perfused animal tissues. The present study tests the hypothesis that bradykinin increases tPA release in humans through local effects on the vasculature. Graded doses of sodium nitroprusside (0.8 to 3.2 micrograms/min), acetylcholine (ACh) (7.5 to 60 micrograms/min), and bradykinin (100 to 400 ng/min) were administered intra-arterially in random order in 10 salt-depleted (10 mmol/d of Na) normotensive volunteers. None of the drugs altered mean arterial pressure or heart rate. Forearm blood flow (FBF) was measured by strain-gauge plethysmography. All 3 drugs caused a dose-dependent increase in FBF, although ACh was less potent than either nitroprusside or bradykinin (maximum FBF 7.5+/-2.4 versus 10.0+/-1.5 and 11.9+/-2.1 mL. 100 mL-1. min-1, respectively). Bradykinin caused a significant, dose-dependent increase in venous (effect of dose F=9. 9, P=0.028 by ANOVA), but not arterial (F=0.154, P=0.92) tPA antigen in the infused arm. Thus, net tPA release increased significantly in response to bradykinin (50.6+/-13.3 at the highest dose versus 0. 9+/-0.4 ng. 100 mL-1. min -1 at baseline, P=0.014). In contrast, bradykinin did not affect plasminogen activator inhibitor antigen. Neither nitroprusside nor ACh altered plasma levels of tPA or plasminogen activator inhibitor antigen. Bradykinin increased tPA release across the forearm in the absence of systemic effects. This effect could not be attributed to changes in blood flow because doses of equivalent potency of the vasodilator nitroprusside did not increase tPA. These data demonstrate that bradykinin stimulates tPA release in the human vasculature.
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PMID:Bradykinin stimulates tissue plasminogen activator release in human vasculature. 1037 28


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