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: EC:3.4.21.68 (tissue plasminogen activator)
11,311 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To assess the effects of pharmacological interruption of the renin-angiotensin system on the fibrinolysis, tissue plasminogen activator antigen (t-PA), plasminogen activator inhibitor-1 antigens (PAI-1) and neurohormones, such as plasma renin activity, norepinephrine, angiotensin II (AII) and IV (AIV) concentrations, were measured in 60 hypertensives. Among them, 48 patients were divided into two groups (25 with 10-20 mg quinapril and 23 with 50-100 mg losartan) who received the drug for 6 months. AII had a weak positive correlation with free PAI-I (n = 60, r = 0.26, p < 0.05) whereas AIV had a strong positive correlation with free PAI-I (n = 60, r = 0.57, p < 0.0001). In both treatment groups, blood pressures were significantly reduced to similar levels after drug treatment. While plasma renin activity increased significantly in both groups after drug treatment, only the losartan group showed significant increases in AII and AIV concentrations. In the quinapril group, there was a significant change in t-PA (p < 0.001) without changes in PAI-1. In the losartan group, free PAI-I and total PAI-I (p < 0.05 for free PAI-I and p < 0.04 for total PAI-I) were significantly increased without a change in t-PA. Thus, quinapril enhanced fibrinolysis but losartan attenuated it. These unique effects of each drug on the fibrinolytic system appear to be associated with changes in AII and AIV concentrations.
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PMID:Effects of a long-term pharmacological interruption of the renin-angiotensin system on the fibrinolytic system in essential hypertension. 1221 51

ACE inhibition reduces plasminogen activator inhibitor-1 (PAI-1), a risk factor for myocardial infarction, whereas the effect of angiotensin receptor antagonism on PAI-1 is uncertain. The present study compares the time course of effects of ACE inhibition and angiotensin type 1 (AT1) receptor antagonism on morning plasma PAI-1 antigen. Blood pressure and endocrine, metabolic, and fibrinolytic variables were measured in 20 insulin-resistant (defined by fasting glucose >8.3 mmol/L, body mass index >28 kg/m2, or fasting serum triglyceride > or =2.8 mmol/L) hypertensive subjects (mean age, 47.9+/-2.1 years) (1) before and after 1 week of hydrochlorothiazide 12.5 mg/d, and (2) before and 1, 3, 4, and 6 weeks after addition of ramipril (escalated to 10 mg/d) or losartan (escalated to 100 mg/d). Hydrochlorothiazide decreased systolic (P=0.011) and diastolic (P=0.019) pressure. Ramipril (from 133.6+/-5.1/94.5+/-2.4 to 127.0+/-3.1/91.4+/-3.3 mm Hg) or losartan (from 137.0+/-3.9/93.1+/-2.9 to 123.7+/-2.6/86.4+/-2.1 mm Hg) further reduced systolic (P=0.009) and diastolic (P=0.037) pressure. The pressure effects of the 2 drugs were similar. Hydrochlorothiazide increased plasma PAI-1 (P=0.013) but not tissue-type plasminogen activator (tPA) (P=0.431) antigen. Addition of either ramipril or losartan significantly decreased plasma PAI-1 antigen (P=0.046). However, the effect of losartan on PAI-1 antigen was not sustained throughout the 6-week treatment period, such that there was a significant drugxtime interaction (P=0.043). tPA antigen decreased during either ramipril or losartan (P=0.032), but tPA activity decreased only during losartan (P=0.018). Short-term interruption of the renin-angiotensin-aldosterone system by either ACE inhibition or AT1 receptor antagonism decreases PAI-1 antigen, but the duration of this effect is greater for ACE inhibition than for AT1 receptor antagonism.
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PMID:ACE inhibition versus angiotensin type 1 receptor antagonism: differential effects on PAI-1 over time. 1246 70

The aim of this study was to assess the relationship between the angiotensin converting enzyme gene (ACE) genotype and endothelium-dependent coronary vasomotor and fibrinolytic activity. The ACE DD genotype has been reported to be a risk factor for myocardial infarction. However, the mechanism is unknown. The fibrinolytic and renin-angiotensin systems are linked via ACE at the vascular beds. We studied 73 patients (II: n=24; ID: n=37; DD: n=12) who underwent diagnostic cardiac catheterization. Graded doses of bradykinin (BK) (0.2, 0.6, 2.0 microg/min) and acetylcholine (30,100 microg/min) were administered into the left coronary artery. Coronary blood flow (CBF) was evaluated by measuring Doppler flow velocity. Blood samples were taken from the aorta (Ao) and the coronary sinus (CS). Coronary release of tPA antigen was determined as a CS-Ao gradientXCBFX[(100-hematocrit) / 100]. ACE genotypes were determined using polymerase chain reaction. The ACE genotype did not appear to affect coronary macro- and microvascular responses induced by BK or acetylcholine. Coronary tissue plasminogen activator (tPA) release induced by BK was depressed in subjects with the ACE DD genotype. ACE levels in the DD genotype were significantly higher than those in the ID or II genotype. In all of the subjects, there was a significant negative correlation between the serum level of ACE activity and net coronary tPA release in response to BK at 0.6 microg/min. In conclusions, the DD genotype of the ACE gene impairs the coronary release of tPA induced by BK.
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PMID:Angiotensin-converting enzyme insertion/deletion polymorphism modulates coronary release of tissue plasminogen activator in response to bradykinin. 1505 54

Angiotensin II stimulates the expression of tissue factor (TF) and plasminogen activator inhibitor type-1 (PAI-1), and AT1 receptor blockade (ARB) reduces PAI-1 and TF activities in experimental studies. We investigated the effects of ARBs on TF activity, tissue plasminogen activator (tPA), PAI-1 antigen levels, plasma renin activity (PRA) and aldosterone levels in hypertensive patients. Placebo, losartan 100mg, irbesartan 300 mg, and candesartan 16 mg daily were administered to 122 patients for 2 months. Compared with placebo, ARBs significantly reduced TF activity (P <0.001 by ANOVA), and candesartan was the most potent. Compared with placebo or losartan, irbesartan and candesartan significantly lowered plasma levels of PAI-1 antigen (P <0.001 by ANOVA) with no differences between the two. Compared with placebo, all ARBs lowered plasma levels of aldosterone (P=0.012 by ANOVA) and increased PRA (P=0.005 by ANOVA). There were significant correlations between the degree of change in TF activity and PAI-1 antigen levels (r=0.458, P <0.0001) and between the change in TF activity and PRA (r=-0.296, P=0.006), but not with the magnitude of reduction in blood pressure following ARB therapy. ARBs significantly reduced TF activity, PAI-1 antigen levels, and aldosterone levels in hypertensive patients. The clinical significance of the varying potency of some ARBs needs to be further investigated.
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PMID:Angiotensin II type 1 receptor blockers reduce tissue factor activity and plasminogen activator inhibitor type-1 antigen in hypertensive patients: a randomized, double-blind, placebo-controlled study. 1548 78

This study tests the hypothesis that spironolactone influences plasminogen activator inhibitor-1 (PAI-1) concentrations through mineralocorticoid receptor antagonism rather than through changes in potassium. Effects of spironolactone (50 mg per day) and triamterene (50 mg per day) on fibrinolytic balance were compared in 18 normotensive and 20 hypertensive subjects pretreated with hydrochlorothiazide (HCTZ; 12.5 mg per day). Blood pressure and serum potassium were similar in spironolactone and triamterene treatment groups. The effect of the 2 drugs on the renin-angiotensin-aldosterone system was also similar. In contrast, spironolactone and triamterene exerted opposing effects on PAI-1 antigen (P=0.006 for drug effect). In normotensive subjects, triamterene (from 10.1+/-7.8 to 16.9+/-9.9 ng/mL at 9 am, P=0.019; from 7.6+/-5.4 to 11.5+/-7.3 ng/mL at 11 am, P=0.027; from 9.3+/-7.7 to 13.7+/-8.5 ng/mL for average of all time points, P=0.054) but not spironolactone significantly increased PAI-1 antigen. In hypertensive subjects, spironolactone significantly decreased PAI-1 antigen (from 22.0+/-23.4 to 16.7+/-19.0 ng/mL at 10 am, P=0.041; from 17.5+/-21.7 to 12.7+/-16.8 ng/mL at 11 am, P=0.043; from 20.3+/-22.6 to 16.6+/-19.7 ng/mL for average of all time points, P=0.014), whereas there was no effect of triamterene. Only spironolactone significantly decreased the molar ratio of PAI-1 to tissue-type plasminogen activator (t-PA) in hypertensive subjects. By regression analysis, predictors of mean PAI-1 response were spironolactone versus triamterene (P=0.014), hypertension (P=0.002), and PAI-1 response to HCTZ (P=0.019), with a trend for aldosterone (P=0.061). Mineralocorticoid receptor antagonism prevents the effect of activation of the renin-angiotensin-aldosterone system on PAI-1 antigen in normotensive subjects and improves fibrinolytic balance in hypertensive subjects through a potassium-independent mechanism.
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PMID:Differing effects of mineralocorticoid receptor-dependent and -independent potassium-sparing diuretics on fibrinolytic balance. 1602 47

Essential arterial hypertension often predisposes patients to prothrombotic state and increased risk of vascular and organ complications. Vital role in regulation of hemostatic processes is played by genetic factors, renin-angiotensin system and disorders of lipid metabolism. Prime genetic factors involved in the process are 4G/5G polymorphism of promoter region coding tissue plasminogen activator inhibitor-1 (PAI-1) and I/D polymorphism for angiotensin converting enzyme (ACE) gene. The aim of work was the evaluation of alterations within fibrinolysis system (estimation of t-PA and PAI-1 levels), fibrinogen concentration (Fb) and ACE activity with regard to co-existent dyslipidemia and features of left ventricle hypertrophy (LVH). Moreover the analysis of influence of 4G/5G PAI and I/D ACE gene polymorphism on intensification of aforementioned alterations among hypertensive patients was performed. Research was carried out in 170 subjects under 40 years old, in two study groups, HT-- hypertensive group--125 patients with previously untreated hypertension without clinical features of ischaemic heart disease and NT--45 normotensive, healthy subjects. HT group has been further divided into four subgroups: DLP (dyslipidemic, n = 51), NLP (normolipidemic n = 74), LVH+ (with features of left ventricle hypertrophy, n = 35), LVH (-) (without features of left ventricle hypertrophy, n = 90). In a whole HT group significantly higher levels of PAI-1, t-PA and Fb were noted in comparison to NT group, considerably more pronounced within DLP rather than NLP subgroups. Moreover, pronounced increase in ACE activity was recorded in DLP and LVH+ subgroups. It has been proved that 4G/4G homozygous subjects of 4G/5G PAI-1 gene polymorphism from HT group tend to present higher levels of PAI-1 and t-PA if contrasted to 4G/4G genotype of NT group, with more distinct effect within DLP subgroup. Carriers of D allele (genotypes I/D, D/D) of I/D ACE gene polymorphism from HT group characterise with significantly higher activity of ACE in contrast to I/I genotype of HT group, with particularly marked effect in DLP and LVH+ subgroups. Basing on above mentioned results it may be concluded that essential hypertension (especially if complicated with dyslipidemia) impairs fibrinolysis, what might be related to renin-angiotensin system activation in lipid metabolism disorders. Deletion alleles of 4G/5G polymorphism (4G allele) and I/D polymorphism (D allele) in patients with hypertension independently modify fibrinolysis towards prothrombotic state with more distinct effect in dyslipidemia. Increased activity of ACE in D allele carriers may predispose to left ventricle hypertrophy.
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PMID:[Plasminogen activator inhibitor-1 (PAI-1) 4G/5G and angiotensin converting enzyme (ACE) I/D gene polymorphisms and fibrinolytic activity in patients with essential hypertension and dyslipidemia]. 1613 May 96

To test the hypothesis that NO contributes to effects of angiotensin-converting enzyme inhibitors on fibrinolysis, fibrinolytic balance was assessed in 17 normal subjects during placebo and after randomized, double-blind 4-week treatment with the NO precursor L-arginine (3 g TID), ramipril (10 mg QD), or L-arginine+ramipril. Neither L-arginine nor ramipril alone affected basal plasminogen activator inhibitor-1 or tissue-type plasminogen activator (t-PA) antigen in these salt-replete subjects in whom plasma renin activity was suppressed (mean+/-SD 0.7+/-0.5 ng angiotensin I/mL per hour). In contrast, L-arginine+ramipril reduced morning plasminogen activator inhibitor-1 antigen (10.8+/-9.5 ng/mL) and the molar ratio of plasminogen activator inhibitor-1:t-PA (2.3+/-1.6) compared with placebo (13.5+/-10.8 ng/mL, P=0.006; ratio 2.9+/-2.1, P=0.015) or ramipril alone (15.2+/-13.2 ng/mL, P=0.009; ratio 3.7+/-3.3, P=0.005). L-arginine and ramipril synergistically increased d-dimers (23.1+/-31.5, 29.7+/-50.0, 35.1+/-50.0, and 57.1+/-144.8 ng/mL during placebo, L-arginine, ramipril, and L-arginine+ramipril, respectively; P<0.05 for L-arginine+ramipril versus any other group). During ramipril, the NO synthase inhibitor L-NG-nitro-arginine-methyl-ester (2 mg/kg) significantly increased plasminogen activator inhibitor-antigen after 2 hours (from 9.4+/-8.6 ng/mL during vehicle to 13.5+/-11.0 ng/mL during L-NG-nitro-arginine-methyl-ester; P=0.020), consistent with an effect on expression but rapidly increased t-PA activity (from 0.4+/-0.3 to 0.5+/-0.4 IU/mL; P=0.031), consistent with an effect on release. Both effects of L-NG-nitro-arginine-methyl-ester were reversed by L-arginine. During angiotensin-converting enzyme inhibition, endogenous NO decreases plasminogen activator inhibitor-1 antigen and improves fibrinolytic balance in normotensive salt-replete subjects.
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PMID:Endogenous NO regulates plasminogen activator inhibitor-1 during angiotensin-converting enzyme inhibition. 1643 54

Bradykinin (BK) liberates nitric oxide, prostacyclin, and tissue plasminogen activator from endothelial cells. We hypothesized that BK B2 receptor knockout (KO) mice (BKB2R(-/-)) have increased thrombosis risk. Paradoxically, the BKB2R(-/-) mice have long bleeding times and delayed carotid artery thrombosis, 78 +/- 6.7 minutes, versus 31 +/- 2.7 minutes in controls. The mechanism(s) for thrombosis protection was sought. In BKB2R(-/-) plasma coagulation, fibrinolysis and anticoagulant proteins are normal except for an increased prekallikrein and decreased factor XI. BKB2R(-/-) mice have elevated BK 1-5 (160 +/- 75 fmol/mL, vs 44 +/- 29 fmol/mL in controls) and angiotensin II (182 +/- 41 pg/mL, vs 49 +/- 7 pg/mL in controls). Ramipril treatment shortens vessel occlusion time. BKB2R(-/-) mice have elevated plasma 6-keto-PGF1alpha (666 +/- 232 ng/mL, vs 23 +/- 5.3 ng/mL in controls) and serum nitrate (61 +/- 5.3 microM, vs 24 +/- 1.8 microM in controls). Treatment with L-NAME (NG-mono-methyl-L-arginine ester) or nimesulide shortens the thrombosis time. BKB2R(-/-) mice have increased angiotensin receptor 2 (AT2R) mRNA and protein expression. Treatment with an AT2R antagonist, PD123 319, normalizes the thrombosis time and nitrate and 6-keto-PGF1alpha. The long bleeding times in BKB2R(-/-) mice also correct with L-NAME and nimesulide therapy. In BKB2R(-/-) mice, angiotensin II binding to an overexpressed AT2R promotes thromboprotection by elevating nitric oxide and prostacyclin. These investigations indicate a pathway for thrombosis risk reduction via the plasma kallikrein/kinin and renin angiotensin systems.
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PMID:Bradykinin B2 receptor knockout mice are protected from thrombosis by increased nitric oxide and prostacyclin. 1651 58

Thrombosis is a key factor in the pathophysiology of cardiovascular disease. Important biochemical constituents of the fibrinolytic system, affecting thrombosis, include tissue-type plasminogen activator (t-PA) and plasminogen activator inhibitor-1 (PAI-1). Both t-PA and PAI-1 are determined by multiple genetic and environmental factors. We aimed to investigate whether the effects of polymorphism in genes from the renin-angiotensin, bradykinin, and fibrinolytic systems on t-PA or PAI-1 levels are dependent on environmental factors in a large population-based sample from the PREVEND study in Groningen, The Netherlands (n = 2,527). We found strong evidence (P <or= 0.02) for interaction effects of polymorphisms from the bradykinin receptor (BDKRB2) gene and alcohol consumption on t-PA in females and males and on PAI-1 in males. Only suggestive evidence (P <or= 0.10) was present for an interaction effect of the BDKRB2 gene and alcohol consumption on PAI-1 levels in females. Another consistent finding was evidence for an interaction between bradykinin receptor (BDKRB2) gene polymorphisms and body size as measured by body mass index and/or waist-hip-ratio. For each gender and for both t-PA and PAI-1 there was at least one BDKRB2-body size combination that exhibited suggestive (P <or= 0.10), significant (P <or= 0.04) and/or strong evidence (P <or= 0.02) for interaction. In conclusion, the genetic architecture of t-PA and PAI-1 is dependent on the environmental context such as body size and alcohol use. The present study emphasizes the importance of including environmental factors in genetic analyses to fully comprehend the genetic architecture of a specific trait.
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PMID:The effects of polymorphisms in genes from the renin-angiotensin, bradykinin, and fibrinolytic systems on plasma t-PA and PAI-1 levels are dependent on environmental context. 1759 94

Lead is a ubiquitous environmental toxin that is capable of causing numerous acute and chronic illnesses. Population studies have demonstrated a link between lead exposure and subsequent development of hypertension (HTN) and cardiovascular disease. In vivo and in vitro studies have shown that chronic lead exposure causes HTN and cardiovascular disease by promoting oxidative stress, limiting nitric oxide availability, impairing nitric oxide signaling, augmenting adrenergic activity, increasing endothelin production, altering the renin-angiotensin system, raising vasoconstrictor prostaglandins, lowering vasodilator prostaglandins, promoting inflammation, disturbing vascular smooth muscle Ca(2+) signaling, diminishing endothelium-dependent vasorelaxation, and modifying the vascular response to vasoactive agonists. Moreover, lead has been shown to cause endothelial injury, impede endothelial repair, inhibit angiogenesis, reduce endothelial cell growth, suppress proteoglycan production, stimulate vascular smooth muscle cell proliferation and phenotypic transformation, reduce tissue plasminogen activator, and raise plasminogen activator inhibitor-1 production. Via these and other actions, lead exposure causes HTN and promotes arteriosclerosis, atherosclerosis, thrombosis, and cardiovascular disease. In conclusion, studies performed in experimental animals, isolated tissues, and cultured cells have provided compelling evidence that chronic exposure to low levels of lead can cause HTN, endothelial injury/dysfunction, arteriosclerosis, and cardiovascular disease. More importantly, these studies have elucidated the cellular and molecular mechanisms of lead's action on cardiovascular/renal systems, a task that is impossible to accomplish using clinical and epidemiological investigations alone.
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PMID:Mechanisms of lead-induced hypertension and cardiovascular disease. 1856 11


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