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:3.4.15.1 (ACE)
18,300 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hypertension is a major risk factor for the development of heart failure. Despite significant progress in our knowledge of the physiopathology of heart failure, the cause for decompensation in patients with left ventricular hypertrophy (LVH) is still obscure. The angiotensin converting enzyme inhibitor enalaprilat has been found to improve electromechanical coupling of heart cells in animal models. To assess the effects of enalaprilat on ventricular electromechanical coupling in humans, we studied the His bundle electrograms and hemodynamics in 22 hypertensive patients with LVH. Patients received either 2.5 mg enalaprilat or saline placebo intravenously in a double-blind protocol. There were no significant changes in heart rate, and atrioventricular and His-Purkinje conduction times. Ventricular activity duration was reduced from 110 +/- 11 msec to 88 +/- 13 msec after enalaprilat administration (P < .01). Enalaprilat decreased peak-systolic and end-diastolic left ventricular pressures, and arterial and pulmonary pressures, as well as pulmonary and systemic vascular resistances. End-systolic wall stress decreased 18% (P < .01), ejection fraction increased 11% (P < .01), and end-diastolic pressure-volume ratio decreased 50% (P < .001) after enalaprilat administration. There were no significant changes in these parameters after saline infusion. It is concluded that enalaprilat reduces ventricular activation duration and improves ventricular performance in hypertensive patients with LVH. Data suggest that enalaprilat significantly improves excitation-contraction coupling in these patients.
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PMID:Effects of enalaprilat on hemodynamics and ventricular activation duration in hypertensive patients with left ventricular hypertrophy: clinical evidence of improved excitation-contraction coupling with angiotensin converting enzyme inhibition in human hypertension. 839 97

Studies were performed to determine whether the inhibition of the decidual cell reaction induced by intrauterine infusion of the angiotensin converting enzyme inhibitor enalaprilat in rats is reversed by activation of Ca2+ influx. Influx of Ca2+ was shown to be stimulated by angiotensin II in endometrial cells in this study. Ovariectomized, adult female rats were sensitized for the decidual cell reaction with steroid treatments. For experiments in vivo, intrauterine infusions of enalaprilat alone, or in combination with the Ca2+ ionophore A23187, a synthetic diacylglycerol, and dioctanoyl-sn-glycerol (diC8), and PGE2 were initiated on the day of uterine sensitivity. Enalaprilat inhibited the increases in uterine PG concentrations and uterine weight that occur following infusion of the vehicle. Concurrent infusion of A23187 partially, but not completely, reversed the inhibition of uterine weight increase; diC8 did not affect the inhibition of enalaprilat. A23187 did not reverse the effects of enalaprilat on uterine PG concentrations. Concurrent infusion of A23187 and PGE2 fully reversed the inhibitory effect of enalaprilat on uterine weight. For experiments in vitro, endometrial stromal and epithelial cells were obtained from uteri on the day of sensitivity and maintained in suspension. Cytosolic free calcium concentration ([Ca2+]i) was monitored in cell suspensions by fluorescence spectrophotometry using the Ca(2+)-sensitive probe, indo-1. Angiotensin II induced a transient increase in [Ca2+]i of endometrial stromal cell suspensions, but not of epithelial cells; PGE2 did not increase [Ca2+]i in stromal or epithelial cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Requirement for Ca2+ mobilization and increased prostaglandin production for maximal decidualization in rats and the involvement of angiotensin II. 841 Aug 7

Many individuals possess an allele of the angiotensin I-converting enzyme (ACE) gene, which contains an extra 287-kb fragment in intron 16 (Rigat et al. 1992). Although the functionality of this fragment is at present unclear, the absence (deletion, D) or presence (insertion, I) of this fragment appears to be related to both the amount and activity of circulating ACE. This paper reports the possible polymorphic response of ACE to the ACE inhibitor enalaprilat in 54 normal Chinese subjects that is independent of the I/D polymorphism. The kinetics of ACE inhibition with enalaprilat was studied in serum from 54 normal Chinese subjects. Enalaprilat appKi ranged between 0.46 and 2.16 nM. An antimode was observed at 1.4 nM. Four subjects could be characterized as being poor responders to enalaprilat.
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PMID:Polymorphic inhibition of human angiotensin I-converting enzyme by enalaprilat. 866 92

Several observations question the role of blood pressure and renal hemodynamic changes in the long-term antiproteinuric effect of ACE inhibition. To differentiate blood pressure and renal effects in the initial antiproteinuric response, the placebo-controlled acute effects of the ACE inhibitor enalaprilat (10 mg i.v.) on blood pressure, renal hemodynamics, and proteinuria were compared with those of nitroprusside in nine patient with non-diabetic proteinuria. In addition, we studied whether an exogenous angiotensin II infusion reverse the initial enalaprilat-induced antiproteinuric response. Enalaprilat and nitroprusside reduced MAP by -11.3 +/- 2.4% and -14.1 +/- 2.3%, respectively, whereas only enalaprilat showed renal hemodynamic effects, reflected by an increase in ERPF of 18.4 +/- 5.4% and a decrease in FF of -17.1 +/- 2.6%. Despite the contrasting renal hemodynamic profiles, enalaprilat (-10.6 +/- 4.8%) and nitroprusside (-12.8 +/- 5.1% equally decreased proteinuria. Exogenous infusion of angiotensin II completely reversed the blood pressure reduction and renal efferent vasodilatation induced by enalaprilat. proteinuria also increased by 13.1 +/- 7.8% to placebo level, albeit statistically non-significant. We conclude that the initial antiproteinuric effect of ACE inhibition appears to be mediated by blood pressure reduction and does not require its specific renal hemodynamic effect. Further studies should clarify whether the renal efferent vasodilatation during ACE inhibition is required to gradually induce renal structural changes that prevent the abundant passage of proteins.
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PMID:Blood pressure reduction initiates the antiproteinuric effect of ACE inhibition. 877 Sep 65

To delineate the pathogenesis of the reduction in hemoglobin occurring in renal transplant patients treated with angiotensin converting enzyme inhibitors (ACEI) and azathioprine (AZA) a controlled, prospective trial of ACEI withdrawal was conducted. The ACEI was replaced by nifedipine or clonidine in 15 kidney transplant patients immunosuppressed with AZA and prednisone (enalapril in 14 and captopril in 1). Before and during 10 to 12 weeks after withdrawal of the ACEI, AZA metabolites, renal function parameters and hematological parameters including erythropoietin and reticulocytes were evaluated. Enalaprilat levels were measured and compared with 15 similar patients matched for transplant function and enalapril dosage immunosuppressed with cyclosporine and prednisone. AZA metabolites did not differ significantly in the presence or absence of the ACEI. Enalaprilat levels also showed no significant difference between the two patient groups treated with AZA or cyclosporine. Hematocrit and hemoglobin increased significantly from 37.5 +/- 6.4 to 39.7 +/- 3.6% (mean +/- SD, P = 0.02) and 12.8 +/- 2.2 to 13.5 +/- 1.2 g/dl, P = 0.04, respectively, 10 to 12 weeks after ACEI treatment had been discontinued. Simultaneously numbers of reticulocytes and erythropoietin concentrations rose significantly after 2, 4 and 10 weeks, with a peak at two weeks (from 14.1 +/- 3.8 to 20.6 +/- 8.0/1000, P < 0.05 and from 14.3 +/- 12.4 to 29.3 +/- 54.5 mU/ml, P < 0.05, respectively). In conclusion, ACEI-related anemia in renal transplant recipients seems to be due to the erythropoietin-lowering effect of this group of drugs. A pharmacokinetic interaction between AZA and enalapril is not likely since plasma enalaprilat levels were independent of the immunosuppressive regimen and AZA metabolite levels were unchanged in the presence and absence of the ACEI. Several mechanisms by which angiotensin converting enzyme blockade may cause a decrease in circulating erythropoietin are discussed.
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PMID:Mechanism of angiotensin converting enzyme inhibitor-related anemia in renal transplant recipients. 887 73

Among the different enzymes responsible for the metabolism of bradykinin (BK), three peptidases look relevant in vivo: kininase I (KI), which transforms BK into its active metabolite, [des-Arg9]BK; kininase II (KII); and neutral endopeptidase, which inactivate BK and [des-Arg9]BK. The in vitro incubation of BK and [des-Arg9]BK in the serum of four species with or without enalaprilat and the quantification of the immunoreactivity of both peptides at different time intervals allowed the measurement of the kinetic parameters characterizing their metabolic pathways. Highly sensitive chemiluminescent enzyme immunoassays were used to measure the residual concentrations of BK and [des-Arg9]BK. Half-life (t1/2) of BK showed significant difference among species: rats (10 +/- 1 s) = dogs (13 +/- 1 s) < rabbits (31 +/- 1 s) < humans (49 +/- 2 s). t1/2 values of [des-Arg9]BK were also species dependent: rats (96 +/- 6 s) < < rabbits (314 +/- 6 s) = dogs (323 +/- 11 s) = humans (325 +/- 12 s). Enalaprilat significantly prevented the rapid BK and [des-Arg9]BK degradation in all species except that of [des-Arg9]BK in rat serum. Relative amount of BK hydrolyzed by serum KII was given as follows: rabbits (93.7 +/- 14.8%) = rats (83.6 +/- 6.7%) = humans (76.0 +/- 7.5%) > dogs (50.0 +/- 3.9%). Its importance in the hydrolysis of [des-Arg9]BK was 5.2 +/- 0.5% in rats < < 33.9 +/- 1.5% in humans < 52.0 +/- 1.1% in rabbits < 65.1 +/- 3.4% in dogs. The participation of serum KI in the transformation of BK into [des-Arg9]BK was dogs (67.2 +/- 5.3%) > > humans (3.4 +/- 1.2%) = rabbits (1.8 +/- 0.2%) = rats (1.4 +/- 0.3%). Finally, no significant difference on t1/2 values for BK and [des-Arg9]BK could be demonstrated between serum and plasma treated with either sodium citrate or a thrombin inhibitor. These results revealed striking species differences in the serum metabolism of kinins that could address at least partially some of the controversial data related to the cardioprotective role of kinins.
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PMID:Serum interspecies differences in metabolic pathways of bradykinin and [des-Arg9]BK: influence of enalaprilat. 889 26

This study examined the effect of the angiotensin converting enzyme (ACE) inhibitor, enalaprilat, on mesangial cell (MC) DNA synthesis induced by H2O2, IL-6 and PDGF. MC were incubated with enalaprilat (2.5-100 mumol/l) alone and together with combinations of H2O2 (3 daily pulses of 10(-6) mol/l), IL-6 (5 ng/ml) and PDGF (10 ng/ml). DNA synthesis was assessed after 72 h using [3H]thymidine (3H-TdR) incorporation. Enalaprilat alone had no effect on MC DNA synthesis. Stimulation of MC by H2O2, PDGF and IL-6 alone resulted in increases in 3H-TdR of 4936.6 +/- 1147.5, 5640.5 +/- 1537.6 and 4413.5 +/- 998.4 cpm, respectively (P < 0.05 above control). Only 2.5 mumol/l enalaprilat effected a significant reduction in IL-6 and PDGF-induced DNA synthesis. Incubation of MC with H2O2 + PDGF or H2O2 + IL-6 resulted in increases of 3H-TdR of 6471.9 +/- 1785.1 and 5507.2 +/- 1270 cpm, respectively (P < 0.05 above control). Addition of enalaprilat with either H2O2 + PDGF or H2O2 + IL-6 effected significant reductions in DNA synthesis over the range 2.5-100 mumol/l. These data demonstrate that ACE inhibitors modulate MC DNA synthesis induced by reactive oxygen species.
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PMID:Modifying influence of enalaprilat on mesangial cell DNA synthesis induced by hydrogen peroxide. 908 1

1. Inhibition of neutral endopeptidase (NEP), the degradative enzyme for atrial natriuretic peptide, was studied in vitro and in vivo using a previously characterized NEP inhibitor radioligand, 125I-labelled RB104. 2. SCH 42354, the active di-acid of the ethylester prodrug, SCH 42495, caused a concentration-dependent displacement of 125I-labelled RB104 from rat renal NEP. The concentration of SCH 42354 that displaced 50% of radioligand bound to the enzyme NEP (IC50) was 3.3 +/- 0.1 nmol/l (mean +/- SEM). Enalaprilat, an angiotensin converting enzyme inhibitor, did not displace 125I-labelled RB104 in concentrations up to 10 mumol/l. 3. In adult normotensive Sprague-Dawley rats, oral SCH 42495 (3-300 mg/kg) caused significant inhibition of renal NEP (P < 0.001). SCH 42495 had no effect on renal or plasma angiotensin converting enzyme activity, but high-dose SCH 42495 (300 mg/kg) caused a significant increase in plasma renin activity (P < 0.01). 4. In a time course study, oral SCH 42495 (30 mg/kg) caused rapid (within 30 min) and significant inhibition of renal NEP for up to 48 h (P < 0.001). No changes in plasma atrial natriuretic peptide or plasma angiotensin converting enzyme activity were seen. 5. These data provide evidence that short-term administration of the NEP inhibitor SCH 42495 results in inhibition of renal NEP and does not inhibit the circulating or the tissue renin-angiotensin system. The NEP inhibitor radioligand 125I-labelled RB104, is a useful tool to study tissue NEP inhibition after administration of NEP inhibitors.
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PMID:Inhibition of neutral endopeptidase, the degradative enzyme for natriuretic peptides, in rat kidney after oral SCH 42495. 927 2

The positive inotropic effects of bradykinin (BK) and 2 analogs resistant to angiotensin I-converting enzyme (ACE) were potentiated on isolated guinea pig atrial preparations by enalaprilat. The stable BK analogs, dextran-BK and [Hyp3-Tyr(Me)8]-BK, were as active as BK. Pretreatment for 5 min with enalaprilat augmented the maximal positive inotropic effect of [Hyp3-Tyr(Me)8]-BK 2.8-fold, from 19% to 53% and that of BK from 28% to 42% over baseline; inotropic responses to dextran-BK (1 microM) were similarly increased. The activity of atrial ACE, a zinc-requiring enzyme, was completely inhibited by 8-hydroxyquinoline-5-sulfonic acid (QSA, 10 mM), which raised the maximal inotropic effect of BK to 39% above baseline. This value rose to 67% when in addition to QSA, 1 microM enalaprilat was added; enalaprilat thus, potentiated the effects of BK independently of enzyme inhibition. The positive inotropic effects to BK and its analogs decline with time in the presence of these agonists. After 10 min of exposure, the response to 1 microM [Hyp3-Tyr(Me)8]-BK decreased to about half, and after 20 min, to 0. Enalaprilat, when present in the tissue bath, prevented the decline in inotropy; even after tachyphylaxis occurred, it reversed this decrease in activity when added. The effects of 1 microM [Hyp3-Tyr(Me)8]-BK, in the absence or presence of enalaprilat, were abolished by the BK B2 receptor antagonist icatibant (0.75 microM). The results indicate that ACE inhibitors, by potentiating the BK effects and blocking BK B2-receptor desensitization, may contribute to the beneficial cardiac effects of BK independently of blocking its inactivation.
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PMID:Angiotensin I-converting enzyme inhibitors potentiate bradykinin's inotropic effects independently of blocking its inactivation. 929 66

Impaired baroreflex function is a characteristic feature of congestive heart failure (CHF), although the mechanism is obscure. This study examined the hypothesis that activation of the renin-angiotensin system contributes to baroreflex dysfunction in CHF. The acute effects of an angiotensin converting enzyme inhibitor, enalaprilat, on baroreflex-mediated changes in heart rate (HR), total and renal noradrenaline (NA) spillover rates were examined in conscious rabbits with doxorubicin-induced cardiomyopathic CHF. Studies were performed under resting conditions and in response to changes in mean arterial pressure (MAP) induced by sodium nitroprusside and phenylephrine infusions. Seven saline-treated (normal group) and 11 doxorubicin-treated rabbits (1 mg/kg administered intravenously twice weekly) were studied after 4 and 6 weeks' treatment. Five CHF rabbits received saline (C group) and 6 enalaprilat infusion (ACEI group) during each study period. After 4 weeks of doxorubicin, baroreflex-HR responses were normal, whereas baroreflex-NA spillover responses were enhanced. Enalaprilat infusion shifted the HR-MAP curve downwards to the left but had no effect on the NA spillover-MAP curves. After 6 weeks of doxorubicin, when CHF was established, baroreflex-HR and NA spillover curves were depressed. At this stage, enalaprilat had little effect on the HR-MAP curve but restored towards normal the NA spillover-MAP curves. The results suggest that the endogenous renin-angiotensin system contributes to attenuated baroreflex responses when CHF is established.
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PMID:Angiotensin converting enzyme inhibition improves baroreflex-induced noradrenaline spillover responses in rabbits with heart failure. 933 97


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