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)

Early screening for hypertension in diabetic patients and for glycoregulation abnormalities in hypertensives is justified by the additive cardiovascular risks when hypertension and diabetes co-exist and by the accelerated development of diabetic nephropathy and retinopathy if hypertension co-exists. In insulin-dependent diabetes, hypertension is generally preceded by microalbuminuria, known to be reduced by angiotensin converting enzyme inhibitors. The requirement for nephropathy prevention and the hemodynamic and/or tissular effects of this therapeutic class could justify their use at a blood pressure level less than that conventionally considered hypertensive. This strategy must be confirmed by prospective trials, already underway, evaluating the nephroprotective efficacy of this therapy. In non-insulin-dependent diabetes, hypertension is often present before the diabetes is diagnosed and antihypertensive therapy, especially thiazide diuretics, could play a demasking or favorizing role. The optimal blood pressure level to which these patients at high renal and coronary risk should be lowered still has to be determined. A prospective study, comparing the effects of strict (treated diastolic blood pressure less than 80 mmHg) and less strict (treated diastolic blood pressure between 90 and 100 mmHg) hypertensive control on coronary event prevention in essential hypertension, is in progress and will have important implications for hypertension treatment in diabetics. Appropriate treatment of other risk factors, such as hyperlipidaemia and smoking, contributes to coronary and renal prevention in all diabetic hypertensives.
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PMID:[Treatment of hypertension in diabetes: threshold of intervention and therapeutic options]. 163 6

The relation between the renin-angiotensin-aldosterone (RAA) system and carbohydrate metabolism and insulin sensitivity in essential hypertension has not been investigated systematically. Twenty nondiabetic patients (age, 49 +/- 1 years; body mass index (BMI), 26.1 +/- 0.4 kg/m2) with essential hypertension (blood pressure, 155 +/- 3/105 +/- 1 mm Hg) received an oral glucose tolerance test (OGTT) at the end of a 1-month placebo period and again monthly during 3 months of angiotensin converting enzyme (ACE) inhibition (cilazapril, 5 mg/day). Furthermore, a two-step euglycemic insulin clamp was performed after placebo and again at the end of treatment. Blood pressure fell by 7 +/- 4/10 +/- 3 mm Hg (p less than 0.001), while BMI remained stable. On the euglycemic clamp, insulin-mediated (plasma insulin, 470 pM) whole body glucose use averaged 42.5 +/- 1.6 mumol.min-1.kg-1 before and 43.6 +/- 1.9 after ACE inhibition (p = NS). Substrate concentrations and oxidative rates and energy expenditure (as estimated by indirect calorimetry) were not altered by ACE inhibition, either in the fasting state or in response to insulin. In contrast, oral glucose tolerance was significantly (p less than 0.05) improved after treatment (area under OGTT curve (AUC), 240 +/- 24 versus 282 +/- 23 mmol 2 hr.l-1). The latter change was associated with enhanced (+16%, p less than 0.05) insulin responsiveness to glucose (estimated as the insulin AUC divided by the glucose AUC) throughout the 3 months of ACE inhibition. At baseline, both the OGTT and the clamp had a marked hypokalemic effect (mean decrements in plasma potassium of 0.75 +/- 0.05 and 0.92 +/- 0.05 mmol/l, respectively) in association with plasma aldosterone reductions of 30% and 50%. Chronic ACE inhibition caused a further 20% (p less than 0.03) lowering of plasma aldosterone concentrations but attenuated insulin-induced hypokalemia. Plasma sodium, which was unaltered by the pretreatment tests, fell during the posttreatment tests (by 3 mmol/l, p less than 0.001). In the urine, the ratio of the fractional excretion of potassium to that of sodium was decreased by both oral glucose (-22%, p less than 0.01) and ACE inhibition (-21%, p less than 0.001). Higher plasma potassium levels before treatment predicted a better blood pressure response to ACE inhibition (r = 0.60, p less than 0.005).(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Effects of chronic angiotensin converting enzyme inhibition on glucose tolerance and insulin sensitivity in essential hypertension. 163 59

The spontaneously hypertensive rat and the stroke-prone spontaneously hypertensive rat are useful models for human hypertension. In these strains hypertension is a polygenic trait, in which both autosomal and sex-linked genes can influence blood pressure. Linkage studies in crosses between the stroke-prone spontaneously hypertensive rat and the normotensive control strain Wistar-Kyoto have led to the localization of two genes, BP/SP-1 and BP/SP-2, that contribute significantly to blood pressure variation in the F2 population. BP/SP-1 and BP/SP-2 were assigned to rat chromosomes 10 and X, respectively. Comparison of the human and rat genetic maps indicates that BP/SP-1 could reside on human chromosome 17q in a region that also contains the angiotensin I-converting enzyme gene (ACE). This encodes a key enzyme of the renin-angiotensin system, and is therefore a candidate gene in primary hypertension. A rat microsatellite marker of ACE was mapped to rat chromosome 10 within the region containing BP/SP-1.
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PMID:Chromosomal mapping of two genetic loci associated with blood-pressure regulation in hereditary hypertensive rats. 165 69

In the present study, the influence of sodium ferulate (SF) on hypotensive effect and urinary excretion of TXB2 after captopril (CAP) was observed in 44 patients with essential hypertension. A single oral dose of CAP (50 mg) decreased mean arterial pressure (MAP) from 16.25 +/- 0.85 to 13.65 +/- 1.14 kPa, n = 28, (P less than 0.01), and increased urinary TXB2 excretion significantly from 119.12 +/- 57.12 to 183.32 +/- 78.61 pg/min, n = 16, (P less than 0.05). The administration of SF 300 mg/d for one day did not affect the MAP. CAP in combination with SF induced a decrease both in MAP from 16.33 +/- 1.14 to 13.83 +/- 1.77 kPa, n = 16, (P less than 0.01) and urinary TXB2 excretion from 155.89 +/- 69.64 to 133.43 +/- 60.01 pg/min, n = 16, (P greater than 0.05) though the latter was not so significant. Compared with the administration of CAP alone, the combination of CAP and SF induced stronger hypotensive effect (P less than 0.05) and the increased urinary TXB2 excretion could be inhibited by SF, but the inhibition to angiotensin converting enzyme was the same. These results suggested that the increased urinary TXB2 excretion by CAP can be inhibited and the hypotensive effect of CAP is potentiated by SF in essential hypertensive patients.
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PMID:[The influence of sodium ferulate on hypotensive effect and urinary excretion of TXB2 after captopril in essential hypertensive patients]. 166 12

The aim of this 3-month double-blind multicenter trial was to compare the antihypertensive efficacy and tolerability of the ACE inhibitor perindopril with those of a diuretic combination. After 1 month of receiving placebo, 165 patients with essential hypertension were randomised to perindopril 4 mg (n = 82) or to 50 mg hydrochlorothiazide + 5 mg amiloride (n = 83). The patients were treated for 3 months with monthly assessments, "uncontrolled" patients (DBP greater than 90 mm Hg) had their dosage doubled and then, if necessary, atenolol 50 mg was added. At the end of the 3-month study, mean decreases in supine and standing systolic and diastolic blood pressures were similar in both groups. In the perindopril group, BP control was obtained in 56% of the patients with the 4 mg dosage and required an increase to 8 mg alone in 16% and with atenolol in 5%. The corresponding percentages in the diuretic group were 48, 23 and 13%. The overall percentage of "controlled" patients was similar in the 2 groups, respectively 78 and 84%. The nature and incidence of complaints were comparable in the 2 groups. Adverse laboratory changes were more frequent in the diuretic group: decrease in blood sodium (140.5 vs 139.1 mmol/l; P less than 0.01), potassium (4.2 vs 3.9 mmol/l; P less than 0.01) with 10 patients having significant hypokalemia, increase in blood urea, triglycerides and uric acid. By contrast, a transient increase in blood potassium with a decrease in triglycerides was observed in the perindopril group.
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PMID:A double-blind comparison of perindopril and hydrochlorothiazide-amiloride in mild to moderate essential hypertension. 168 28

Renal vascular resistance is increased in essential hypertension, with a consequent reduction in renal plasma flow together with a normal or slightly reduced glomerular filtration rate. Non-specific vasodilators may exacerbate this effect while loop diuretics, beta-blockers, angiotensin converting enzyme inhibitors and calcium antagonists may increase these renal hemodynamic parameters. We studied the effect of lacidipine, a new long-lasting calcium antagonist, on renal hemodynamics in 11 essential hypertensives. Lacidipine (4 mg once a day) acutely increased renal plasma flow without affecting the glomerular filtration rate. A transient, but non-significant, diuresis and natriuresis occurred. After 4 weeks of lacidipine treatment, all the parameters of renal function returned to basal levels. These results suggest that the well known renal effects of calcium antagonists are, at least in part, related to the onset of the antihypertensive effect being more pronounced with compounds such as nifedipine which have a rapid-onset, blood pressure-lowering effect.
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PMID:The effects of antihypertensive therapy on renal function. 168 83

The effect of various antihypertensive medications on platelet function is of increasing interest. Conflicting effects of captopril on platelet function are reported and the impact of angiotensin converting enzyme (ACE) inhibitors not containing a sulfhydryl group such as enalapril, lisinopril, and quinapril on platelet function remains unstudied. Therefore, the aim of the present study was to examine the effect of antihypertensive treatment with quinapril, a novel ACE inhibitor not containing a sulfhydryl group, on platelet function. Ten white men (age range of 32-61 years) with untreated mild-to-moderate essential hypertension (supine diastolic blood pressure greater than 95 mm Hg) were treated with 4 weeks each of placebo and quinapril in a double-blind, randomized, crossover design. Quinapril (20 mg twice a day) significantly lowered systolic (p less than 0.01) and diastolic blood pressure (p less than 0.01) without any significant effect on heart rate or plasma catecholamines. No significant change was noted for in vitro platelet aggregation induced by epinephrine, ADP, or collagen. Plasma concentrations of the platelet release factors beta-thromboglobulin and platelet factor 4 did not change, nor did the platelet content of norepinephrine, platelet weight (mg/10 ml of blood), circulating platelet count, or platelet size. Thus, as assessed by a broad spectrum of platelet parameters, we found that antihypertensive treatment with quinapril has no significant effect on platelet function in patients with mild-to-moderate essential hypertension. These "platelet-neutral" properties of quinapril suggest that quinapril, both from a thromboembolic and a hemostatic point of view, may be a rather safe agent for treatment of hypertension.
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PMID:Platelet function during antihypertensive treatment with quinapril, a novel angiotensin converting enzyme inhibitor. 170 46

We evaluated the degree of inhibition of angiotensin converting enzyme (ACE), principally by cilazapril, by assessing the blood pressure response to a continuous infusion of increasing doses of angiotensin I, and assessed the possible pharmacokinetic and pharmacodynamic interactions between cilazapril and propranolol in healthy volunteers and patients with mild to severe essential hypertension. The specificity of the angiotensin I infusion method was verified when a single dose of cilazapril 30mg antagonised the increase in diastolic blood pressure induced by angiotensin I but did not influence the response to angiotensin II. Using this method, we showed that single oral doses of cilazapril 4 mg, captopril 25 mg and enalapril 10mg shifted the angiotensin I dose-effect curve to the right and determined a pharmacological half-life of about 4 hours for cilazapril. Increasing single oral doses (1.25, 3.75, 10 and 30mg) of cilazapril reduced diastolic blood pressure dose-dependently and shifted the angiotensin I dose-response curves to the right. The dose representing 50% inhibition of ACE activity (apparent Ki-dose) was about 0.6mg, 3 hours after cilazapril administration. Cilazapril and propranolol did not exhibit any clinically significant pharmacokinetic interaction in healthy volunteers; each drug reduced diastolic and systolic blood pressure by about 7 mm Hg, and this was doubled by the combination. Cilazapril had no significant effect on heart rate, in patients with essential hypertension whereas both propranolol and the combination of cilazapril and propranolol reduced it. Monotherapy with each drug reduced blood pressure, and combined administration enhanced the antihypertensive effect.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Clinical pharmacodynamic studies with cilazapril and a combination of cilazapril and propranolol. 171 66

Angiotensin II has many actions in the kidney, including regulation and distribution of renal circulation and glomerular filtration, as well as effects on mesangial contraction and on the filtration coefficient. The reduction in circulating and intrarenal angiotensin II by angiotensin converting enzyme (ACE) inhibitors in essential hypertension is associated with a significant increase in renal blood flow and a decrease in filtration fraction, without changes in glomerular filtration rate. In addition, administration of ACE inhibitors can reduce proximal sodium reabsorption via changes in peritubular hydrostatic and oncotic forces resulting from the fall in postglomerular capillary resistance. In severe hypertension the state of the renal vasculature does not allow ACE inhibition to induce similar haemodynamic changes and, therefore, it cannot contribute to renal sodium handling that requires the recruitment of alternate mechanisms. In spite of this, ACE inhibitors may exert a protective effect on the renal function of patients with severe hypertension as well as in those with renal impairment, by lowering systemic and, probably, intraglomerular pressure, reducing proteinuria and slowing the progression of renal failure.
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PMID:Effects of ACE inhibition on renal haemodynamics in essential hypertension and hypertension associated with chronic renal failure. 171 68

Perindopril is a long acting angiotensin converting enzyme (ACE) inhibitor, which displays similar pharmacodynamic properties to other agents in this class. In common with enalapril, it is also a prodrug. After absorption, perindopril is hydrolysed to the active metabolite, perindoprilat, and with once daily administration adequate 24-hour inhibition of ACE is obtained. Perindopril 4 to 8mg once daily is usually effective for blood pressure control in patients with mild to moderate essential hypertension. Those patients who do not respond adequately to monotherapy with perindopril usually respond with the addition of a second agent, such as a thiazide diuretic. General practice trials indicate that perindopril is at least as effective and as well tolerated as usual therapeutic dosages of captopril, atenolol or hydrochlorothiazide plus amiloride in mild to moderate essential hypertension. Preliminary results indicate that perindopril may also be effective in patients with severe hypertension or congestive heart failure. Perindopril is generally well tolerated and has an adverse effect profile similar to that of other ACE inhibitors. It further clinical experience confirms initial findings, perindopril is likely to represent a useful alternative to other members of the ACE inhibitor class in all grades of hypertension and congestive heart failure.
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PMID:Perindopril. A review of its pharmacological properties and therapeutic use in cardiovascular disorders. 171 88


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