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:3.4.23.15 (renin)
35,795 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The transgenic rat TGR(mRen-2)27 develops severe hypertension with high adrenal renin and low kidney renin. The mechanism of suppressed kidney renin in these animals is still unclear. We investigated the effect of the angiotensin converting enzyme (ACE) inhibitor, perindopril on the renin-angiotensin system in plasma and tissues (adrenal gland and kidney), and the effect of mouse renin antibody on plasma and tissue renin activity before and after perindopril administration. Perindopril lowered blood pressure in the TGR(mRen-2)27 rats from 254.5 +/- 7.4 mm Hg to 154 +/- 7.8 mm hg (n = 8, P < .0001), while blood pressure in the untreated TGR (mRen-2)27 rats increased from 253.7 +/- 8.1 to 276.1 +/- 14.3 mm Hg during the study period. Perindopril significantly suppressed plasma angiotensin II (Ang II) from 19.4 +/- 2.5 pg/mL to 2.6 +/- 0.4 pg/mL, P < .0001, while markedly increasing plasma renin concentration (PRC) from 15.5 +/- 1.8 ng AngI/mL/h to 148.2 +/- 35.5 ng AngI/mL/h, P < .005 and kidney renin from 56.7 +/- 18.1 micrograms AngI/g/h to 827.4 +/- 79.1 micrograms AngI/g/h, P < .0001. However, adrenal renin was not increased. A mouse Ren-2 renin antibody at a 1:1000 dilution that suppresses purified mouse Ren-2 renin activity by 62.6 +/- 3.6% (n = 3, P < .0001) and does not suppress renin activity in plasma and kidney of the Sprague-Dawley rats, suppressed PRC in the untreated TGR(mRen-2)27 rats by 52.3 +/- 3.5% (n = 6, P < .0001). However, it only suppressed PRC in the perindopril treated TGR(mRen-2)27 rats by 7.0 +/- 2.4% (n = 6, P < .05). The antibody suppressed adrenal renin in both untreated and perindopril treated TGR(mREN-2)27 rats by 57.3 +/- 5.4% (n = 5, P < .0001) and 49.7 +/- 2.2% (n = 6, P < .0001), respectively. On the other hand, the mouse antibody suppressed kidney renin in the untreated TGR(mRen-2)27 rats by only 11.0 +/- 3.3% (n = 6, P < .05), and did not suppress kidney renin in the perindopril treated TGR(mRen-2)27 rats (n = 6, P < .0001), respectively. On the other hand, the mouse antibody suppressed kidney renin in the untreated TGR(mRen-2)27 rats by only 11.0 +/- 3.3% (n = 6, P < .05), and did not suppress kidney renin in the perindopril treated TGR(mRen-2)27 rats (n = 6, P < NS). The pH profile of renin activity in plasma confirmed the results of the antibody study. We conclude that in the TGR(mRen-2)27 rats adrenal renin is mainly mouse renin and kidney renin is mainly rat renin. The main sources of circulating renin in the TGR(mRen-2)27 rats are extra-renal tissues, including the adrenal glands, where mouse Ren-2 renin transcripts are highly expressed. The increased circulating renin in perindopril treated TGR(mRen-2)27 rats is rat renin derived from the kidney. The failure of adrenal renin to increase with perindopril suggests that at least in the basal state there is no feedback inhibition as there is in the kidney. The low kidney renin appears to be due to physiological rather than genetic factors.
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PMID:Reversal of the suppressed kidney renin level in the hypertensive transgenic rat TGR(mRen-2)27 by angiotensin converting enzyme inhibition. 884 72

We previously demonstrated differing blood pressure (BP) responses to the first dose of angiotensin-converting enzyme (ACE) inhibitors in congestive heart failure (CHF). We wished to confirm the disparate responses to the first dose of these agents, study the response to repeated dosing, and explore possible explanations (slow, tight binding, and steric hindrance) for the phenomenon. Forty-eight elderly patients (aged 51-85 years) with stable CHF were studied for 48 hours. Groups (n = 12) received one of the following: (a) perindopril 2 mg orally (p.o.) + placebo intravenously (i.v.) (day 1) and perindopril 2 mg p.o. (day 2); (b) enalapril 2.5 mg p.o. + placebo i.v. (day 1) and enalapril 2.5 mg p.o. (day 2); (c) placebo p.o. + perindopril at 0.167 mg i.v. (day 1) and perindopril 2 mg p.o. (day 2); or (d) placebo p.o. + placebo i.v. (day 1) and placebo p.o. (day 2). Supine BP was measured on day 1. On day 2, BP was recorded by ambulatory BP monitor. Blood samples were taken at baseline and at intervals during the 48-h study period for estimation of neurohumoral parameters. Inhibition of the renin-angiotensin system (RAS) was estimated by plasma ACE inhibition and also by the ratio of angiotensin II (Ang II)/Ang I + Ang II. On day I, enalapril 2.5 mg caused a greater decrease in BP than did placebo response between 6 and 9 h postdose. Perindopril 2 mg produced a profile of BP response similar to that of placebo. Ambulatory BP on day 2 was consistently lower with enalapril as compared with perindopril. Profiles of plasma ACE inhibition were similar with each active therapy. Enalapril therapy produced a greater increase in plasma renin activity (PRA) than did other treatments. There was no temporal dissociation between plasma ACE inhibition and profile of Ang peptides for any treatment. We have confirmed the disparate BP responses to perindopril and enalapril in CHF. We noted no evidence of slow, tight binding or steric hindrance to explain these differences.
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PMID:Differing early blood pressure and renin-angiotensin system responses to the first dose of angiotensin-converting enzyme inhibitors in congestive heart failure. 885 35

Angiotensin-converting enzyme (ACE) inhibitors reduce myocardial remodeling and improve cardiac function after myocardial infarction. We investigated whether the beneficial effects of ACE inhibition were associated with changes in the levels of angiotensin and bradykinin peptides in blood, heart, lung, aorta, and kidney. Rats subjected to coronary artery ligation and selected by ECG criteria to have moderate to large myocardial infarctions (mean size, 38%) were administered perindopril (0, 20, 200, and 2,000 micrograms/kg/day) in their drinking water from the second day after surgery for 26 days. Perindopril caused a dose-related decrease in blood pressure and inhibited the development of both cardiac hypertrophy (estimated by heart weight/body weight ratio) and cardiac failure (estimated by lung weight/body weight ratio). Perindopril inhibited plasma ACE activity and increased plasma renin, with an associated decrease in plasma angiotensinogen. Plasma and all tissues showed a marked reduction in angiotensin II/angiotensin I ratio, indicating effective inhibition of ACE in plasma and tissues. Whereas heart, lung, and kidney showed dose-related decreases in angiotensin II (Ang II) levels, plasma and aortic levels of Ang II were not altered by perindopril. Perindopril increased blood bradykinin levels but did not increase bradykinin levels in heart, lung, aorta, or kidney. Heart showed a 45% increase in bradykinin levels at the highest dose of perindopril, which did not achieve statistical significance, although perindopril reduced the bradykinin(1-7)/ bradykinin-(1-9) ratio in heart, indicating inhibition of cardiac metabolism of bradykinin by perindopril. By contrast, perindopril reduced bradykinin levels in lung. These data support a role for reduced blood pressure and cardiac Ang II levels in mediating the effects of ACE inhibition after myocardial infarction but do not support a role for tissue bradykinin in this process.
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PMID:Effects of angiotensin-converting enzyme inhibition on angiotensin and bradykinin peptides in rats with myocardial infarction. 896 Oct 71

The sympathetic nervous system, coronary artery disease and myocardial ischaemia are related in different ways. First, the sympathetic system may be involved in the process of atherosclerosis through platelet activation and subsequent platelet-derived growth factor formation and by inducing mechanical injury to the vascular wall as a result of increased blood pressure and increased flow velocity. Secondly, sympathetic control of coronary vasomotor tone, which under normal conditions is not important, becomes functionally significant once coronary artery disease endothelial dysfunction has occurred. Under these circumstances, increased sympathetic adrenergic tone may lead to coronary vasoconstriction and, as myocardial oxygen demand increases concomitantly, myocardial ischaemia may ensue. Alternatively, myocardial ischaemia activates several neurohormonal systems, such as the sympathetic and, during more severe ischaemia, the circulating renin-angiotensin system. This leads to systemic and, possibly, coronary vasoconstriction and thus to further myocardial ischaemia. Prolonged myocardial ischaemia results in progressive norepinephrine release from the heart, reaching extracellular levels as high as 100-1000 x plasma concentrations. As cardiac beta-receptor density rises simultaneously, sympathetically-induced irreversible myocardial damage may occur, although through concomitantly increased beta-receptor kinase activity the beta-receptor may become functionally inactive. To counteract the detrimental effects of enhanced sympathetic activation on the heart, beta-blockade appears to be the proper choice. However, acute beta-blockade may lead to more profound ischaemia-induced neurohormonal activation and hence to vascular constriction through unoccupied alpha-receptors. In contrast, under ischaemic conditions and with concomitant beta-blockade, acute alpha-blockade does improve subendocardial flow and reduces myocardial ischaemia. A novel approach to anti-ischaemic therapy, which relates to modulating ischaemia-induced sympathetic activation, is through ACE inhibition. ACE inhibitors affect myocardial ischaemia by reducing neurohormonal activation and related systemic and coronary vasoconstriction. These acute effects may become more important over time, as coronary endothelial function improves following long-term ACE inhibition. A large multicentre controlled trial comparing ACE inhibition with placebo in patients with coronary artery disease, the EUROPA (EUopean trial on Reduction Of cardiac events with Perindopril in stable coronary Artery disease), which is currently underway, addresses the issue of whether ACE inhibition does in fact offer a novel approach in myocardial ischaemia.
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PMID:The sympathetic nervous system and ischaemic heart disease. 965 38

During ischaemia, both the circulating renin-angiotensin system and the local angiontensin converting enzyme are activated. The circulating renin-angiotensin system has a short-term role in the regulation of the cardiovascular system. Its aim is to restore blood pressure and cardiac homeostasis. Activation of the local system causes long-term regulation of cardiovascular homeostasis via sustained activation of local angiotensin and the gradation of bradykinin. This results in the secondary permanent structural changes that underline many aspects of coronary artery disease. Recently it has been shown that ACE inhibition is useful in the early and late phase of myocardial infarction. ACE inhibitors have been shown to reduce in vitro vascular hypertrophy and attenuate arteriolosclerosis and to maintain endothelial function. Interestingly, unexpected data from trials on heart failure have shown that patients receiving ACE inhibitors have a reduced incidence of infarction, hospitalization for cardiovascular disease and the need for coronary artery bypass surgery or angioplasty. As a consequence, several trials have been designed to assess the effect of ACE inhibition on the progression of coronary artery disease, as well as on its morbidity and mortality. The EUropean trial on Reduction Of cardiac events with Perindopril in stable coronary Artery disease (EUROPA) is one of these. This article summarised a number of independent and complementary mechanisms and points to the role played by ACE and ACE inhibition in coronary artery disease. In particular it considers the possibility that ACE inhibition improves endothelial function, exerts anti-atherogenic and anti-proliferation activity and modulates sympathetic activity.
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PMID:Effect of ACE inhibition on myocardial ischaemia. 979 38

The hypertensive transgenic rat model TGR(mRen2)27 has been used to investigate the development of cardiac and vascular hypertrophy in response to two different drug regimes. Cardiac hypertrophy was shown to be related to age and gender with the copy number of mouse renin transgenes having an additive effect. A similar observation was noted for hypertrophy in the vasculature, which was assessed using flow cytometry cell cycle DNA analysis of aortic vascular smooth muscle cells. Chronic treatment from weaning with equihypotensive doses of perindopril (2 mg/kg/day) or hydralazine and hydrochlorothiazide (4 mg/day of each) prevented the development of cardiac hypertrophy. Perindopril treatment also effectively prevented the development of vascular hypertrophy; however, treatment with hydralazine and hydrochlorothiazide was not as effective despite equivalent blood pressure reduction. These studies have demonstrated the presence of marked vascular and cardiac hypertrophy in the hypertensive transgenic TGR(mRen2)27 model of hypertension. Furthermore, these results provide new evidence to support the role of a locally activated renin angiotensin system in the blood vessel wall, which is involved in the pathogenesis of vascular hypertrophy in this transgenic rat model.
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PMID:Different effects of antihypertensive agents on cardiac and vascular hypertrophy in the transgenic rat line TGR(mRen2)27. 1041 70

Aldosterone biosynthesis in kidney has been proved by means of kidney perfusion in vitro, high performance liquid chromatography, radioimmunoassay and TR-PCR, indicating that aldosterone biosynthesis is possible in tissues other than adrenal. Bilateral nephrectomy was carried out in male Wistar rats and the plasma renin activity would disappear after 30 hours. However, RT-PCR showed that the vasculature in the nephrectomized rats was still able to express renin mRNA. It means that the vasculature is different from the heart which depends on taking up renin from the circulation, while the vasculature takes renin produced locally in its own tissue to initiate the renin-angiotensin-aldosterone system. Perindopril, an angiotensin converting enzyme inhibitor (ACEI), inhibits not only the production of angiotensin II, but also the synthesis of aldosterone in the vasculature. ACEI reversion of vascular remodeling is probably related with its inhibition of aldosterone synthesis in the vasculature.
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PMID:[An experimental study on tissue renin-angiotensin-aldosterone system]. 1043 67

Endothelium-dependent/nitric oxide (NO)-mediated vasodilation is impaired in hypertensive individuals. Asymmetric dimethylarginine (ADMA), an endogenous inhibitor of NO synthase, is synthesized by many types of cells including vascular endothelial cells. The serum level of ADMA is elevated in patients with essential hypertension, but the mechanism for this increase is unknown. Therefore, the present study examined whether the renin-angiotensin system (RAS) is involved. Patients with essential hypertension [systolic blood pressure (BP) > 160 mmHg and/or diastolic BP > 95 mmHg] were randomized to an angiotensin-converting enzyme (ACE) inhibitor treatment group (perindopril, 4mg/day for 4 weeks, n = 7), an angiotensin II type 1 (AT1) receptor antagonist treatment group (losartan, 50 mg/day for 4 weeks, n = 7) or a beta-blocker treatment group (bisoprolol, 5 mg/day for 4 weeks, n = 7). Before and after the treatment, BP, serum concentration of ADMA and plasma concentration of von Willebrand factor (vWF, a biological marker of endothelial injury) were measured. Perindopril, losartan and bisoprolol decreased BP to a similar extent, and either perindopril or losartan, but not bisoprolol, significantly decreased serum ADMA and plasma vWF. These findings suggest that the RAS may contribute to the mechanism of increased serum ADMA as well as to the endothelial injury observed in hypertensive patients. The vasculoprotective actions of ACE inhibitors or AT1 receptor antagonists may be explained at least in part by amelioration of the endothelial injury through a decrease in the serum ADMA concentration.
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PMID:Renin-angiotensin system is involved in the mechanism of increased serum asymmetric dimethylarginine in essential hypertension. 1154 74

Perindopril is a long-acting ACE inhibitor, acting through its only active metabolite perindoprilat. It inhibits the renin-angiotensin system by preventing both the conversion of angiotensin I to angiotensin II and the degradation of bradykinin, thereby reducing the vasoconstriction and left ventricular remodelling characteristic of heart failure. Perindopril 4mg significantly improved a range of haemodynamic parameters in single-dose and long-term (8 weeks and 3 months) studies involving patients with congestive heart failure (CHF), with little or no effect on blood pressure or heart rate. In randomised, double-blind, placebo-controlled clinical trials conducted over 3 months and a large noncomparative study (up to 30 months), perindopril 4mg once daily significantly increased exercise tolerance and reduced symptoms of heart failure in patients with mild to moderate CHF. Perindopril 4mg once daily is generally well tolerated in patients with mild to moderate CHF. In a large noncomparative study the most commonly reported adverse clinical event was cough, which led to 2.8% of patients discontinuing treatment. In short-term comparative trials there was a significantly lower incidence of first-dose hypotension following the recommended starting dose of perindopril 2mg than after the equivalent starting doses of captopril, enalapril and lisinopril.
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PMID:Perindopril: in congestive heart failure. 1207 91

The renin-angiotensin system plays an important role in the elevation of asymmetric dimethylarginine (ADMA), an endogenous inhibitor of nitric oxide synthase, in hypertensive patients, so the present study was designed to examine whether angiotensin-converting enzyme (ACE) activity is also involved in the mechanism of ADMA elevation in type 2 diabetes mellitus (NIDDM). A crossover study was performed to determine if ACE inhibition with perindopril (4 mg/day) for 4 weeks decreases serum ADMA concentration and plasma von Willebrand factor (vWF) level (a marker of endothelial injury) in 11 patients with NIDDM. None of the patients was treated with insulin or oral hypoglycemic drugs, and none had major diabetic complications. Before the protocol began, serum ADMA and plasma vWF were significantly higher in the 11 NIDDM patients, when compared with 8 control subjects without diabetes. Perindopril did not affect blood pressure or glucose metabolism, but did significantly decrease serum ADMA and plasma vWF. These results suggest that endothelial injury associated with ADMA elevation may be present even in patients with non-complicated NIDDM, and that increased activity of ACE may be involved in such endothelial dysfunction.
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PMID:Angiotensin-converting enzyme activity is involved in the mechanism of increased endogenous nitric oxide synthase inhibitor in patients with type 2 diabetes mellitus. 1222 17


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