EC:3.4.15.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.15.1 (ACE)
18,300 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Previous work has shown that angiotensin converting enzyme (ACE) activity and mRNA are present in cardiac tissue. Since ACE appears to be a key enzyme in the regulation of the activity of the cardiac renin angiotensin system, the aim of the present study was to examine the expression and regulation of ACE mRNA in the heart. ACE is a membrane bound enzyme with low synthetic turnover. We therefore investigated whether the highly sensitive polymerase chain reaction (PCR) can serve as a tool for detection and quantification of ACE mRNA in small tissue samples of the heart. Enzymatic reverse transcription was performed using 1 mg total RNA of atrial as well as of right and left ventricular origin. The resulting DNA was amplified in 25 cycles of PCR using Taq polymerase and specific primers. The amplification products were separated by agarose gel electrophoresis and detected by Southern blot analyses. Employing these methods, ACE mRNA was found in the atrium as well as right and left ventricles of rat hearts. Furthermore, PCR was useful to study the induction of ACE mRNA levels in left ventricles of hearts with experimental pressure overload hypertrophy as well right ventricles with compensatory hypertrophy after left ventricular infarction.
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PMID:Detection of angiotensin converting enzyme mRNA in the rat heart by use of the polymerase chain reaction (PCR). 133 23

Elevated serum angiotensin I-converting enzyme activity may occur in diabetic subjects. This may signal alteration of vascular endothelium. To study the effect of acute glucose change on serum Angiotensin Converting Enzyme (ACE), we performed an oral glucose tolerance test in 17 obese subjects (7M/10F), (Body Mass Index, (BMI): 31 +/- 1 kg/m2), aged 48 +/- 3 years. We measured serum ACE activity (Lieberman's method), active renin (RIA Pasteur kit), and aldosterone (RIA, Cis-International kit), before and 2 hours after oral glucose intake (75 g), and plasma glucose and insulin every 30 min. After oral glucose tolerance test, subjects were classified as 6 Non Insulin-Dependent Diabetic (NIDD), 8 Glucose intolerant (GI), and 3 NormoGlycaemic (NG) subjects. Active renin did not vary after glucose loading (14 +/- 2 vs 15 +/- 2 pg/ml) nor aldosterone (104 +/- 14 vs 133 +/- 18 pg/ml), while ACE activity rose significantly (229 +/- 25 vs 277 +/- 28 IU/l; p = 0.02). Serum ACE activity were different in the 3 groups before glucose loading (NIDD: 266 +/- 37, GI: 252 +/- 32, NG: 90 +/- 21 IU/l; Kruskal-Wallis H = 7.03; p = 0.03), but not after 2 hours (NIDD: 297 +/- 42, GI: 275 +/- 36, NG: 204 +/- 113 IU/l; ns).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Increase of angiotensin converting enzyme activity during oral load of glucose]. 133 58

The ovarian renin-angiotensin system (RAS) has been studied extensively in the virgin cycling rat, but little information is available about this system in pregnant and postpartum rats. We show that renin and angiotensin I-converting enzyme (ACE)--the key enzymes involved in angiotensin II (Ang II) formation--and Ang II receptors, are present in pregnant and postpartum rat ovaries. From gestation Days 2-4 to 10-12, active ovarian renin ranged from 1.12 +/- 0.13 to 1.27 +/- 0.19 ng Ang I/h/mg and comprised between 68 and 86% of total (active+inactive) ovarian renin activity. Between Days 10-12 and Days 14-16 of pregnancy, ovarian active renin activity increased slightly, but inactive renin disappeared, suggesting its activation; the remaining active renin then decreased 62% by Days 18-20 (p < 0.05). On postpartum Day 2, both active and total ovarian renin activity exceeded that of Days 2-20 of pregnancy (p < 0.05); levels of both then declined sharply by postpartum Day 3 (p < 0.05). In pregnant rats, levels of ovarian Ang II receptors, identified by the specific binding of [125I]-[Sar1,Ile8]Ang II to ovarian membranes, were high between Days 2-4 and 10-12 of pregnancy, ranging from 12.8 +/- 1.7 to 15.7 +/- 3.4 fmol/mg, but steadily declined by 82% between gestation Days 10-12 and 18-20 (p < 0.05). Postpartum Ang II receptor levels on Days 2, 3, and 4 showed a gradual increase from low levels comparable to Days 18-20 of pregnancy. Ovarian ACE activity did not change throughout pregnancy or during the postpartum period.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Rat ovarian angiotensin II receptors, renin, and angiotensin I-converting enzyme during pregnancy and the postpartum period. 133 75

Our study attempted to evaluate the importance of changes in the circulating renin-angiotensin-aldosterone system (RAAS) and in hemodynamics in relation to observed changes in cardiovascular structure. We studied previously untreated men (n = 28) with essential nonmalignant hypertension and a supine casual diastolic blood pressure > 95 mm Hg on three to four separate (> 1-week interval) occasions measured in triplicate. We used intraarterial blood pressure, dye-dilution technique, plethysmography (hands), eye-ground photos, M-mode echocardiography, radio immunoassays, and multiple regression analysis. Patients were randomized to 6 months of double-blind treatment with either enalapril or hydrochlorothiazide, following 4 to 6 weeks on placebo. We found that enalapril blocked the plasma angiotensin converting enzyme (ACE) with a secondary increment in plasma renin activity (PRA) and reductions in angiotensin II (AII) and aldosterone. Blood pressure was lowered through a reduction in total peripheral resistance (TPR). Hydrochlorothiazide increased PRA, AII, and aldosterone, and lowered blood pressure mainly through a reduction in cardiac output. Enalapril was significantly more effective than hydrochlorothiazide in reversing structural changes in the retinal and hand vasculature as well as in the heart. A reduction in cardiac hypertrophy was seen even in the occasional enalapril-treated patient, in whom little or no reduction in blood pressure occurred. In the stepwise regression analyses, the changes in retinal and hand vascular structure were most strongly related to various changes in the RAAS, explaining 15 to 34% of the variance. For the changes in cardiac structure, the type of therapy (enalapril or hydrochlorothiazide) appeared to be the most important factor, explaining between 29 and 50% of the variance. The changes in cardiac structure were even more strongly related to changes in the RAAS for the enalapril treated patients and explained up to 55% of the variance in cardiac structure. It can be concluded that the reversal of structural vascular changes during antihypertensive therapy was more dependent on the blockade of the RAAS than on lowering of the blood pressure.
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PMID:Reversal of cardiovascular structural changes when treating essential hypertension. The importance of the renin-angiotensin-aldosterone system. 128 43

Cardiac hypertrophy is an adaptive response to an increased load imposed on the myocyte which allows the heart to perform increased work while maintaining normal myocardial fiber stress and shortening in systole. A deleterious consequence of pressure-overload hypertrophy is the prolongation of Ca(2+)-sensitive force inactivation (impaired myocardial relaxation) which is related to intrinsic alterations in cytosolic Ca2+ transport and reuptake in diastole. Additional factors appear to adversely modify myocardial relaxation in the hypertrophied heart, including the imposition of ischemia. There is also evidence that the expression and activity of the cardiac tissue renin angiotensin system (RAS) may be modified in the hypertrophied heart and contribute to diastolic dysfunction. Recent studies have demonstrated the presence of increased cardiac angiotensin converting enzyme (ACE) mRNA expression and activity in animal models of hypertrophy, including the aortic-banded rat with compensatory pressure-overload hypertrophy and rats with post-infarction remodeling. In the beating, isovolumic aortic-banded rat heart, the increased intracardiac activation of angiotensin I to II has been shown to be associated with a dose-dependent depression of diastolic relaxation. Preliminary studies suggest that the depression of diastolic function by angiotensin II in the hypertrophied heart can be prevented by the specific inhibition of cardiac ACE. In addition, the well-recognized susceptibility of the hypertrophied heart to severe ischemic diastolic dysfunction also appears to be favorably modified by the inhibition of cardiac ACE activity. The mechanisms responsible for the adverse effects of angiotensin II on diastolic relaxation in the hypertrophied heart are likely to be complex.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Diastolic dysfunction in pressure-overload hypertrophy and its modification by angiotensin II: current concepts. 133 63

The angiotensin converting enzyme (ACE) is a key component of the renin angiotensin system that contributes to the regulation of blood pressure (BP). Recent demonstration of linkage between the ACE locus and elevated BP in a rat model of hypertension has further emphasized ACE as a candidate gene in human hypertension. We report the localization of the ACE gene on the genetic map of chromosome 17, and identify an extremely polymorphic marker at the human growth hormone (hGH) locus which shows no recombination with ACE. We have found no evidence to support linkage between the ACE locus and hypertension, which suggests that mutations at the ACE locus do not commonly contribute to the pathogenesis of hypertension in our test population.
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PMID:Absence of linkage between the angiotensin converting enzyme locus and human essential hypertension. 133 66

The discovery of the components of the renin angiotensin system (RAS) in various tissues gave rise to the idea that functional "tissue" renin-angiotensin systems exist that are more or less independent of the hormonal RAS. Further support to this notion came from the recent demonstration of the mRNA for the protein components of the RAS in a number of organs. Last not least, the introduction of the CE inhibitors, generating an enormous scientific interest in the role of the RAS, has contributed to the concept of "tissue" RAS, since some of the effects of these drugs were thought to be reconciled better with "tissue" than with plasma RAS inhibition. However, this model of plasma vs "tissue" RAS still suffers from a number of conceptual problems that have to be dealt with. For instance, with respect to the "tissue" RAS in the vascular wall it is not clear at present whether ACE is at all active inside endothelial cells. In addition, all evidence available speaks against its localisation in the vascular media, while there may be some activity of the enzyme in the adventitial layer. Concerning the heart, there is at present no unequivocal evidence for a local ANG II production through angiotensin converting enzyme (ACE) in cardiac tissue outside the coronary vessels. The localisation of ANG II generation within tissue RAS in the adrenal gland or in the kidney, where ANG II may be generated through CE at the tubular brush border, is far from being elucidated.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:ACE inhibition in the tissues. 133 77

Angiotensin-converting enzyme in the blood serum was assayed with Friedland's and Silverstein's Technique in 24 female patients with untreated hyperthyroidism accompanying Graves-Basedow disease. Mean ACE activity was significantly higher in patients than that in the group of healthy individuals of the same age. Increased ACE activity noted in patients with Graves-Basedow disease may, therefore, indicated a significant role of renin-angiotensin-aldosterone system in the etiopathogenesis of hypertension in this disease.
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PMID:[Activity of angiotensin-converting enzyme in women with hyperthyroidism accompanying Graves-Basedow disease]. 133 53

Regulation of the gene expression of type-1 angiotensin II receptor (AT1) by treatment with manidipine, a calcium channel blocker, or delapril, an angiotensin converting enzyme inhibitor, for one week was assessed in the adrenal gland, heart, kidney, and brain from spontaneously hypertensive rats (SHR). Tissue AT1 receptor messenger RNA (mRNA) content was measured by reverse transcriptase-polymerase chain reaction. Treatment with manidipine (3 mg/kg/day) or delapril (30 mg/kg/day) lowered systolic blood pressure (SBP) significantly (p < 0.01) (delta SBP; -73 mmHg or -67 mmHg, respectively). Although delapril markedly increased plasma renin activity (PRA), manidipine did not alter PRA. AT1 receptor mRNA content in the adrenal gland was significantly (p < 0.01) decreased by treatment with manidipine or delapril. In contrast, cardiac AT1 receptor mRNA content was significantly (p < 0.01) increased by treatment with either agent. There was no significant change in renal and brain AT1 receptor mRNA contents. These findings suggest that although the expression of AT1 receptor gene depends on the circulating renin-angiotensin system (RAS), it is regulated independently in a tissue-specific manner via the local RAS in each tissue of SHR.
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PMID:Regulation of the gene expression of type-1 angiotensin II receptor in spontaneously hypertensive rats. 134 80

Plasma levels of endothelin (ET), plasma renin activity (PRA) and angiotensin II (Ang II) were measured in anaesthetized marmosets exposed to acute aortic stenosis proximal to the renal arteries. In vehicle experiments, ET rose from 5 +/- 2 to 38 +/- 4 pg ml-1, PRA from 5 +/- 2 to 99 +/- 21 ng ml-1 h-1 and Ang II from 21 +/- 4 to 213 +/- 76 pg ml-1. Administration of renin inhibitor and angiotensin converting enzyme inhibitor reduced PRA and Ang II to control levels, while the plasma levels of ET increased further (51 +/- 10 and 71 +/- 16 pg ml-1, respectively). During aortic stenosis the two isoforms ET-1 and ET-3 appeared in the circulation, while in conscious control animals only ET-1 was found. It is concluded that the increased plasma levels of ET in our primate model could not be ascribed to the increased circulating levels of PRA and Ang II.
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PMID:Raised plasma concentrations of endothelin-1 and -3 in marmosets with acute aortic stenosis: no relation to the renin-angiotensin system. 134 44

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