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)

The adjunctive use of intravenous captopril with tissue plasminogen activator early during acute myocardial infarction offers theoretic advantages of diminishing left ventricular volume, preventing ventricular dilation and improving patient survival. To test the safety and efficacy of combined early administration of intravenous captopril and recombinant tissue-type plasminogen activator (rt-PA), 38 patients treated with rt-PA 3 +/- 0.3 h (mean +/- SE) after the onset of myocardial infarction were randomized to intravenous followed by oral captopril or placebo therapy. They underwent cardiac catheterization with measurement of hemodynamic variables and left ventricular function and determination of serum renin, angiotensin and aldosterone levels on days 1 and 7. Oral administration of the selected agent was continued for 3 months along with other antianginal medications, including nonangiotensin-converting enzyme inhibitor vasodilators. Repeat measurements of left ventricular function were obtained before hospital discharge and at 3 months. There were no significant differences in baseline clinical characteristics between groups. One patient in the captopril-treated group became hypotensive during intravenous therapy, requiring discontinuation of treatment. Compared with the placebo-treated group, the captopril-treated group had significant reductions at day 7 in left ventricular end-diastolic pressure (22.5 +/- 1.5 versus 16.3 +/- 1.6 mm Hg, p less than 0.01) and mean systemic arterial pressure (93.6 +/- 3.3 versus 86.2 +/- 2.7 mm Hg, p less than 0.05).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:A randomized placebo-controlled trial of combined early intravenous captopril and recombinant tissue-type plasminogen activator therapy in acute myocardial infarction. 182 97

We recently showed that the administration of the antidiuretic V2 specific agonist, 1-desamino[8-D-arginine]vasopressin (dDAVP), to seven male patients with congenital nephrogenic diabetes insipidus (CNDI) did not cause a decrease in blood pressure nor an increase in plasma renin activity or factor VIIIc or von Willebrand factor release. In normal subjects, plasma renin activity, coagulation factors and plasma cyclic AMP are stimulated not only by dDAVP but also by the administration of epinephrine. In the present study, we measured tissue plasminogen activator (activity and antigenicity), von Willebrand factor multimers, plasma and urinary cyclic AMP concentrations following dDAVP or epinephrine administration. We infused epinephrine into three male patients with CNDI. Factor VIIIc and tissue plasminogen activator augmented by 75 to 100% and von Willebrand Factor multimers were increased; plasma renin activity and plasma cyclic AMP concentration increased by 200%. None of these values changed when the same subjects as well as eleven other male patients with CNDI received dDAVP. Furthermore, dDAVP administration increased plasma cyclic AMP concentrations in normal subjects, but not in 14 male patients with CNDI. These results demonstrate the specificity of the extrarenal V2 receptor defect expressed in our patients. The lack of a plasma cyclic AMP response to the administration of dDAVP would suggest an altered pre-cyclic AMP stimulation mechanism.
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PMID:Epinephrine and dDAVP administration in patients with congenital nephrogenic diabetes insipidus. Evidence for a pre-cyclic AMP V2 receptor defective mechanism. 255 38

The aim of this study was to assess the cardiovascular and hormonal responses to 1-desamino-8,D-arginine vasopressin (DDAVP) in hypertensive patients before and after non-selective beta-blockade. We infused DDAVP at 400 ng/kg body weight for 10 min in nine subjects with mild essential hypertension before and 14 days after administration of nadolol at 80 mg/day. Blood pressure and heart rate were recorded, and blood was drawn at 0, 30 and 60 min for measurement of plasma renin activity, aldosterone, cortisol, noradrenaline, adrenaline and dopamine. Before the administration of nadolol, DDAVP induced a significant decrease in blood pressure, and significant increases in the heart rate, plasma renin activity, cortisol and noradrenaline; there were no changes in adrenaline or dopamine. After the administration of nadolol, baseline noradrenaline was significantly increased, while cortisol, adrenaline and dopamine remained unchanged. A second infusion of DDAVP did not significantly alter blood pressure, [corrected] heart rate, noradrenaline, adrenaline or dopamine, but plasma renin activity, aldosterone and cortisol still showed a significant increase. The blunted hypotensive effect of DDAVP after the administration of nadolol may be aspecific, due to lower basal blood pressure levels, or may indicate a mechanism of action common to both drugs. A similar post-DDAVP increase before and after beta-blockade suggests that the drug has a direct effect on the renin-secretory apparatus. An indirect effect, mediated by changes in intrarenal haemodynamics or by other factors with renin-stimulating activity, e.g. tissue plasminogen activator, can also be hypothesized.
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PMID:Cardiovascular and hormonal responses to DDAVP before and after beta-blockade in patients with mild essential hypertension. 307 98

A highly active angiotensin-producing enzyme (enzyme II) was obtained from dog serum by acid treatment and fractionation to remove angiotensinase and converting enzyme, separate an inhibitor, and convert an inactive precursor (proenzyme II) to enzyme II. Proenzyme II was found to be converted to enzyme II by an endogenous activating enzyme identified as plasmin. Conversion was also caused by the interaction of bacterial streptokinase with human proactivator, by trypsin, and by an activator formed from liver tissue extract and dog serum. Neither plasma kallikrein nor the labile, human extrinsic tissue-type plasminogen activator induced activation. The inhibitor, which normally blocks the activation of proenzyme II, was unusually stable against high temperatures and extremes of pH, and it was not identical to any of the six known protease inhibitors of serum. Enzyme II was not identical to other angiotensin-producing enzymes such as enzyme I, renin, cathepsin D, pepsin, plasmin, tonin, or cathepsin G. Enzyme II reacted maximally at pH 4.7 and produced up to 2250 ng of angiotensin I/ml serum/hr from the substrate of dog serum (i.e., amounts 3200-fold higher than that produced by endogenous renin of normal dog serum). Since at pH 7.2, angiotensin I formation is still about 30 times higher than that of renin, enzyme II may be physiologically active under some conditions.
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PMID:Angiotensin-producing serum enzyme II. Formation by inhibitor removal and proenzyme activation. 390 15

Plasminogen can be activated by intrinsic activators that circulate in plasma in a precursor form, by extrinsic activator originating from tissues or the vessel wall and by the exogenous activators, urokinase and streptokinase. Tissue activator and vascular activator are probably identical. Dialysis of plasma against pH 4.0 buffer causes denaturation of the plasmin inhibitors, alpha 2-antiplasmin and C1-inhibitor, while alpha 2-macroglobulin is left intact. Incubation of pH 4.0-pretreated plasma with urokinase or streptokinase at pH 7.5 led to activation of plasminogen and prorenin. Incubation of a plasma fraction, which contained plasminogen and prorenin but no alpha 2-antiplasmin and renin, with highly purified tissue plasminogen activator also led to activation of prorenin. The vasopressin analogue, 1-desamino-8-D-arginine vasopressin (DDAVP), is a potent stimulant for the release of extrinsic activator into the bloodstream. After infusion of DDAVP, 0.4 micrograms/kg, into normal subjects, parallel increments in plasma fibrinolytic activity and renin were observed. Infusion of DDAVP into patients with type IV hyperlipoproteinaemia had little effect on plasma fibrinolytic activity and the response of plasma renin was also subnormal. These observations warrant further studies on a possible role for plasminogen activators in prorenin activation in vivo.
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PMID:Activation of plasma prorenin by plasminogen activators in vitro and increase in plasma renin after stimulation of fibrinolytic activity in vivo. 675 94

In healthy subjects, intravenous infusion of the selective V2-vasopressin receptor agonist 1-desamino-8-D-arginine vasopressin (DDAVP, 400 ng/kg in 10 min) causes a marked increase in heart rate with a slight decrease in diastolic blood pressure. These haemodynamic responses are associated with increments in the plasma levels of renin, noradrenaline (NA), clotting factor VIII (FVIII:C), von Willebrand factor (vWF:ag), and tissue-type plasminogen activator (t-PA), and a fall in the plasma level of plasminogen activator inhibitor (PAI). None of these changes was observed in 3 patients with congenital nephrogenic diabetes insipidus (NDI), who had a genetic defect of the V2-receptor. Plasma AVP levels in these patients were normal or slightly elevated, which makes it unlikely that the lack of DDAVP responsiveness was caused by down-regulation of vasopressin V1-receptors. In one NDI patient, arginine vasopressin (AVP) was given in incremental doses (62.5-4000 pg/kg/min). The heart rate and blood pressure responses to AVP were normal, indicating the absence of a V1-receptor defect. The responses of vWF:ag and t-PA to venous occlusion in the patients with NDI were similar to those in 5 healthy volunteers, which indicates that in NDI the endothelial release of both vWF:ag and t-PA is normal. We conclude that DDAVP causes its effects on heart rate and blood pressure, and on the plasma levels of renin, noradrenaline, FVIII:C, vWF:ag, and t-PA through V2-receptor stimulation.
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PMID:1-Desamino-8-D-arginine vasopressin (DDAVP) in patients with congenital nephrogenic diabetes insipidus. 823 94

In addition to causing vasoconstriction and the retention of salt and water, angiotensin inhibits fibrinolysis, thereby promoting clot formation and protecting against hemorrhage. Activation of the renin-angiotensin system (RAS) can disturb the balance of the fibrinolytic system by stimulating excess production of plasminogen activator inhibitor type 1 (PAI-1) and increasing the risk of thrombotic events. This risk is exacerbated by angiotensin-converting enzyme (ACE)-induced degradation of bradykinin, which normally stimulates production of tissue-type plasminogen activator (t-PA). Modification of the RAS via ACE inhibition may protect against thrombosis by limiting vascular expression of PAI-1 and augmenting bradykinin-induced production of t-PA. Survivors of myocardial infarction treated with an ACE inhibitor have demonstrated a reduction in PAI-1 activity and preservation of the normal ratio of PAI-1 to t-PA. This effect on the fibrinolytic system may contribute to the favorable impact ACE inhibition has been demonstrated to have on the incidence of recurrent myocardial infarction.
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PMID:The renin-angiotensin system and fibrinolysis. 912 16

Plasminogen activator inhibitor 1 (PAI-1) is a determinant of vascular events. Subjects in metabolic wards are at high risk for these events. The renin-angiotensin system modulates plasma PAI-1 levels. An insertion (4G)/deletion (5G) polymorphism is involved in the regulation of the circulating levels of PAI-1. We have evaluated the levels of plasma PAI-1 in 208 individuals from our metabolic ward and correlated these levels with the 4G/5G genotype as well as with a genotype (homozygosity for a deletion polymorphism, DD genotype) of the angiotensin-converting enzyme (ACE) gene. Homozygosity for the insertion genotype (5G/5G) was associated with PAI-1 levels lower than those associated with the deletion genotype (4G/4G) (26.2x/:1.6 versus 33.7x/:1.7 ng/mL, P = .036). Plasma PAI-1 levels appeared to depend on the genotype (P = .014) as much as on age (P = .044), t-PA (P = .0001), or triglyceride levels (P = .005). The association between triglycerides and PAI-1 was significant in subjects carrying the 4G/4G and the 4G/5G genotypes (P = .013 and .036, respectively) but not in those with the 5G/5G genotype. When stratified according to PAI-1 and ACE genotypes, individuals homozygous for both deletions (4G/4G-DD genotypes) exhibited higher plasma PAI-1 levels compared with those of individuals without such homozygosities. However, this difference did not reach statistical significance. We conclude that in a group of subjects from a metabolic ward, a 4G/5G polymorphism of the PAI-1 gene exerts effects on plasma PAI-1 antigen levels comparable to those of established determinants. The association between triglycerides and plasma PAI-1 levels is genotype dependent. A trend to a positive interaction between ACE DD and PAI-1 4G/4G in the regulation of circulating plasma PAI-1 levels is present in this setting.
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PMID:Plasminogen activator inhibitor-1 (PAI-1) antigen plasma levels in subjects attending a metabolic ward: relation to polymorphisms of PAI-1 and angiontensin converting enzyme (ACE) genes. 935 75

Deletion polymorphism of angiotensin I-converting enzyme (ACE) gene has been reported to be an independent risk factor for myocardial infarction. Plasminogen activator inhibitor-1 (PAI-1) was proposed to be a link between the renin-angiotensin system and thrombotic risk. This study was undertaken to investigate the possible association between the insertion/deletion (I/D) polymorphism of the ACE gene and plasma PAI-1 levels in 160 patients with mild-to-moderate hypertension. The I/D genotypes were determined by polymerase chain reaction with oligonucleotide primers flanking the polymorphic region in intron 16 of the ACE gene. Baseline levels of PAI-1 antigen and activity and tissue plasminogen activator (t-PA) antigen were determined in fasting morning plasma samples. It was found that patients with homozygote deletion (DD, n = 37) ACE genotype did not have significantly higher plasma levels of PAI-1 antigen (31.2 +/- 15.6 ng/mL v 28.4 +/- 15.1 ng/mL or 27.2 +/- 13.2 ng/mL, P = .42), PAI-1 activity (16.2 +/- 10.6 IU/mL v 14.1 +/- 9.4 IU/ mL or 15.0 +/- 9.9 IU/mL, P = .60), or t-PA antigen (14.6 +/- 6.0 ng/mL v 13.4 +/- 4.9 ng/mL or 14.6 +/- 5.7 ng/mL, P = .40) as compared to those with heterozygote (DI, n = 67) or homozygote insertion (II, n = 56) genotypes. On multiple regression analysis, the ACE genotypes did not appear to be significant predictors for plasma PAI-1 levels and t-PA antigen after adjustment with age, sex, body mass index, plasma triglyceride, cholesterol, and glucose. In conclusion, the results indicated that the I/D polymorphism of the ACE gene was not related to plasma PAI-1 levels in a Chinese population with hypertension. The ACE genotypes may not have a role in influencing the fibrinolysis in hypertension.
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PMID:Plasminogen activator inhibitor-1 and angiotensin I converting enzyme gene polymorphism in patients with hypertension. 952 54

Thromboembolic complications such as ischemic stroke and myocardial infarction are significantly more frequent in patients with arterial hypertension. From the available intervention studies, it appears that pharmacologic treatment of hypertension-at least with diuretics and beta-blockers-may more effectively protect against cerebrovascular as compared to coronary thromboembolic events. Whether other antihypertensive substances provide a more effective protection with respect to cardiac morbidity and mortality is the subject of numerous studies presently underway. These studies will help to answer the question of whether the extent of protection from coronary events during antihypertensive treatment depends on factors beyond blood pressure control. The fibrinolytic system is crucially involved in the pathogenesis of thromboembolic events. One determinant of this system is the balance between plasminogen activators (tissue-type plasminogen activator [t-PA]) and inhibitors (plasminogen activator inhibitor 1 [PAI-1]). Experimental and clinical evidence suggests that at least some of the drugs used in the treatment of hypertension may alter the activity of the fibrinolytic system. Scarce and controversial data with respect to such an interaction exist with respect to diuretics, beta-blockers, and calcium antagonists. In addition, experimental evidence demonstrates that PAI-1 is stimulated by angiotensin II (A II), whereas t-PA is activated by bradykinin. Thus, antihypertensive drugs acting within the renin angiotensin system should exert effects also within the fibrinolytic system. However, results from clinical studies with angiotensin converting enzyme (ACE) inhibitors and A II receptor antagonists do not unequivocally support such a concept. The discrepancy in the results may, at least in part, be explained by studies performed in healthy volunteer subjects showing that ACE inhibition profoundly affected fibrinolysis only during stimulation of the renin angiotensin system by NaCL restriction.
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PMID:Antihypertensive drug treatment and fibrinolytic function. 979 46


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