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)

The purpose of this study was to determine if the changes in renal function acutely produced by an inhibitor of angiotensin converting enzyme (ACE) in the sodium-depleted conscious marmoset can be explained primarily by blockade of the renin-angiotensin system. Intravenous injection of a dose of the ACEI, enalaprilate (2 mg/kg), that produced a maximal lowering of blood pressure (BP), also decreased renal vascular resistance and increased renal blood flow. Glomerular filtration rate was unchanged by enalaprilat, leading to a fall in the filtration fraction. In comparison, a dose of the renin inhibitory monoclonal antibody, R-3-36-16 (0.1 mg/kg), that also produced a maximal fall in BP, produced similar changes in renal hemodynamics to those observed after administration of the ACEI. Combined administration of 2 mg/kg enalaprilat and 0.1 mg/kg R-3-36-16 produced changes in BP and renal hemodynamics similar to those produced by the same doses of either agent administered alone. Enalaprilat (2 mg/kg) significantly increased urine volume (UV) and urinary sodium excretion (UNaV). In contrast, these parameters were not significantly altered by 0.1 mg/kg R-3-36-16. However, when given at a 10-fold higher dose, the monoclonal antibody produced an increase in UNaV and UV identical to that produced by the ACEI alone. Enalaprilat did not increase UV and UNaV excretion to a greater extent than the high dose of the renin inhibitory antibody. These results demonstrate that acute administration of an ACEI affects BP and renal function in the sodium-depleted conscious primate primarily by inhibition of the renin-angiotensin system.
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PMID:The acute renal actions of angiotensin converting enzyme inhibitors in the sodium-depleted conscious primate are mediated by inhibition of the renin-angiotensin system. 130 74

1. Eight healthy male volunteers received oral enalapril, 10 mg, in the presence and absence of pretreatment with captopril, 50 mg, twice daily for 5 days. 2. Enalaprilat pharmacokinetics were characterised after both doses of enalapril to investigate the effect of saturating ACE binding sites by pretreatment with captopril. 3. The pharmacokinetics of enalaprilat were best described by a one compartment model with zero order input incorporating saturable binding to plasma and tissue ACE. 4. Values of AUC (0.72 h) for enalaprilat were 419 +/- 97 and 450 +/- 87 ng ml-1 h in the presence and absence of captopril, respectively. The difference was not statistically significant nor were there any other differences in model parameters. 5. Induction of ACE by captopril resulting in an increase in the number of ACE binding sites, may have obscured any effect of captopril on the occupancy of ACE binding sites by enalapril.
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PMID:The effect of saturation of ACE binding sites on the pharmacokinetics of enalaprilat in man. 131 53

Hearts with compensatory pressure-overload hypertrophy show an increased intracardiac activation of angiotensin II that may contribute to ischemic diastolic dysfunction. We studied whether pressure-overload hypertrophy in response to aortic banding would result in exaggerated diastolic dysfunction during low-flow ischemia and whether the specific inhibition of the cardiac angiotensin converting enzyme by enalaprilat would modify systolic and diastolic function during ischemia and reperfusion in either hypertrophied or nonhypertrophied hearts. Isolated, red blood cell-perfused isovolumic nonhypertrophied and hypertrophied rat hearts were subjected to enalaprilat (2.5 x 10(-7) M final concentration) infusion during 20 minutes of baseline perfusion and during 30 minutes of low-flow ischemia and 30 minutes of reperfusion. Coronary flow per gram was similar in nonhypertrophied and hypertrophied hearts during baseline perfusion, ischemia, and reperfusion. At baseline, left ventricular developed pressure was higher in hypertrophied than nonhypertrophied hearts in untreated groups (224 +/- 8 versus 150 +/- 9 mm Hg; p less than 0.01) and in enalaprilat-treated groups (223 +/- 9 versus 145 +/- 8 mm Hg; p less than 0.01). During low-flow ischemia, left ventricular developed pressure was depressed but similar in all groups. All groups showed deterioration of diastolic function; however, left ventricular end-diastolic pressure increased to a significantly higher level in untreated hypertrophied than in nonhypertrophied hearts (65 +/- 7 versus 33 +/- 3 mm Hg; p less than 0.001). Enalaprilat had no effect in nonhypertrophied hearts, but it significantly attenuated the greater increase in left ventricular end-diastolic pressure in hypertrophied hearts treated with enalaprilat compared with no drug (65 +/- 7 versus 50 +/- 5 mm Hg; p less than 0.01). The beneficial effect could not be explained by differences in coronary blood flow per gram left ventricular weight, glycolytic flux as reported by lactate production, myocardial water content, oxygen consumption, and tissue levels of glycogen and high energy phosphate compounds. During reperfusion, all hearts showed a partial recovery of developed pressure to 70-74% of initial values. No effect of enalaprilat could be detected during reperfusion on systolic and diastolic function or restoration of tissue levels of high energy compounds. In conclusion, our experiments show that hypertrophied red blood cell-perfused hearts manifest a severe impairment of left ventricular diastolic relaxation in response to low-flow ischemia in comparison with control hearts. Further, our experiments support the hypothesis that the enhanced conversion of angiotensin I to angiotensin II in rats with pressure-overload hypertrophy contributes to the enhanced sensitivity of hypertrophied hearts to diastolic dysfunction during low-flow ischemia.
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PMID:Exacerbation of left ventricular ischemic diastolic dysfunction by pressure-overload hypertrophy. Modification by specific inhibition of cardiac angiotensin converting enzyme. 131 16

The action of a kinin-potentiating peptide (KPP) obtained from tryptic digestion of human serum proteins was compared with that of bradykinin-potentiating peptide 9a (BPP9a; obtained from snake venom) and enalaprilat (a synthetic inhibitor of angiotensin-converting enzyme; ACE) as a means of understanding the mechanism of action of KPP on smooth muscle. KPP potentiated bradykinin-induced contractile effects in guinea-pig ileum and rat uterus, but not the bradykinin-induced relaxation of pre-contracted ileum, whereas BPP9a and enalaprilat potentiated both bradykinin effects. The receptor mediating both the contraction and the relaxation elicited by bradykinin in the ileum was found to be of the B2 type. KPP retained its potentiating effect in the presence of enalaprilat in the guinea-pig ileum and rat uterus, whereas the potentiation evoked by BPP9a was abolished. Enalaprilat inhibited the activity of purified ACE, whereas KPP was completely devoid of such an effect. The potentiating effect of KPP, but not that of BPP9a or enalaprilat, was blocked by compounds that inhibit phospholipase A2 and lipoxygenase activity but not by inhibitors of cyclo-oxygenase or phosphodiesterases. The results suggest that the potentiating effect of KPP (i) does not involve inhibition of ACE; (ii) is not due to an increased affinity of the receptor for bradykinin, and (iii) probably involves post-receptor events linked to phospholipase A2 and to the lipoxygenase pathway.
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PMID:Comparative study on the mechanism of bradykinin potentiation induced by bradykinin-potentiating peptide 9a, enalaprilat and kinin-potentiating peptide. 133 May 81

Cocaine abuse can cause cardiovascular damage leading to hypertension, myocardial ischaemia and infarction. This might be partly due to the effects of cocaine on the microcirculation about which little is known, although its effects on the macrovessels are well documented. Accordingly, we used in vivo videomicroscopy to study the vasoconstrictive effect of cocaine on arterioles of different diameter. They were classified into three orders (A2, A3, A4) according to their position in the microvascular network and their diameter. Since calcium antagonists have been reported to exert a protective effect against the cardiovascular disorders induced by cocaine, we tested the hypothesis that this protective action occurs in the microcirculation. We found that intra-arterial administration of the calcium antagonist Nitrendipine greatly inhibited the vasoconstriction induced by cocaine in all three arteriole orders. The degree of inhibition ranged from 44 to 56%. Combined administration of benzodiazepine and an angiotensin converting enzyme inhibitor has also been reported to protect rats against cocaine-induced hypertension and to increase survival rates after a toxic dose of cocaine. Since the mechanisms of this protection are not yet clear, we also studied the effect of the angiotensin converting enzyme inhibitor Enalaprilat on cocaine-induced vasoconstriction. Intra-arterial administration of Enalaprilat inhibited this vasoconstriction slightly but significantly in arteriole orders 2 and 3 by 27 and 24% respectively, but not in order 4. We concluded that Nitrendipine is a powerful inhibitor of cocaine-induced vasoconstriction in the microcirculation. The small but significant inhibition found with Enalaprilat for the larger arterioles suggests that the local angiotensin II level may affect the response to cocaine. However, since the Enalaprilat-induced inhibition was very limited, we conclude that mechanisms other than those occurring in the peripheral microcirculation account for the protection afforded by Enalaprilat against the harmful effects of cocaine.
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PMID:Microvascular effects of cocaine; interaction with nitrendipine and enalaprilat. 164 95

Prolongation of bradykinin half-life following kininase inhibition has been proposed as the reason for the potentiation of kinin effects. We have reassessed this assumption by using three different isolated smooth muscle preparations and simultaneously studying the inhibition of kininase activity and the potentiation of bradykinin effects by enalaprilat and BPP9a. Rat duodenum displayed higher total kininase activity, metabolizing half of the added bradykinin in 6.5 min, while this time for rat uterus was greater than 60 min. Guinea-pig ileum showed the intermediate value of 14.6 min. Enalaprilat and BPP9a slowed the metabolism of bradykinin by 50-100% in rat duodenum and by 50-180% in guinea-pig ileum, showing that a significant fraction of total kininase activity appears to be due to kininase II. In rat duodenum, an almost complete blockade of kininase activity was achieved when bacitracin and mergetpa were used together with enalaprilat. Enalaprilat and BPP9a potentiated bradykinin effects in guinea-pig ileum and rat uterus. In contrast, bradykinin-induced relaxations and contractions in rat duodenum were not potentiated by enalaprilat, BPP9a, or by the enzyme inhibitor mixture (enalaprilat--bacitracin--mergetpa). The results suggest that inhibition of bradykinin enzymatic metabolism by kininases does not necessarily lead to the potentiation of bradykinin effects.
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PMID:Potentiation of bradykinin effects and inhibition of kininase activity in isolated smooth muscle. 165 90

The inflammatory effects of enalaprilat and cilazaprilat were tested in an experimental model of ovalbumin-sensitised guinea-pigs. Enalaprilat, but not cilazaprilat, enhanced the ovalbumin-induced inflammatory skin responses. The effect of enalaprilat was dose-dependent. Enalaprilat significantly increased the skin content of substance P and histamine. Cilazaprilat did not alter the level of these inflammatory mediators. Enalaprilat, applied locally, but not cilazaprilat, enhanced the inflammatory reactions caused by intradermal injections of allergen and substance P. Both angiotensin converting enzyme (ACE) inhibitors enhanced the inflammatory skin response evoked by bradykinin. Our study strongly indicates that enalaprilat has pro-inflammatory properties, whereas the new long-acting ACE inhibitor cilazaprilat does not. This might give a better safety profile of cilazaprilat.
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PMID:Enalaprilat, but not cilazaprilat, increases inflammatory skin reactions in guinea-pigs. 171 72

ACE-inhibitors have for some time been used in the treatment of hypertension. Apart from inhibiting the conversion of angiotensin I to II, the drugs also affect the metabolism of some inflammatory agents, like bradykinin and substance P. Egg albumin (EA)-sensitized guinea pigs were pretreated with the ACE-inhibitors. Measurement of flare and wheal areas induced by an intradermal injection of EA, showed that enalaprilat significantly increased, whereas cilazaprilat slightly decreased, the reaction area. Enalaprilat also showed an enhancement in histamine and substance P (SP) contents in the skin. In vitro incubation of guinea pig biopsies with enalaprilat potentiated EA- but not SP-induced histamine release. The EA-induced effect was abolished if the animals were pretreated with capsaicin. The conclusion is that cilazaprilat, in contrast to enalaprilat, does not potentiate inflammatory reactions in the guinea pig.
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PMID:Enalaprilat versus cilazaprilat: a comparison of allergic skin reactions in the guinea pig. 171 46

Two non-sulfur containing ACE-inhibitors were tested concerning their local effect on experimental dermatitis in ovalbumin-sensitized guinea pigs. Enalaprilat but not cilazaprilat potentiated the ovalbumin-evoked inflammatory response. Furthermore, enalaprilat clearly enhanced the erythema evoked by substance P, whereas cilazaprilat did not. Concerning, the bradykinin-evoked erythema, enalaprilat significantly potentiated the response, whereas cilazaprilat only caused a slight increase. Our results suggest that different affinities for peptidases involved in degradation of inflammatory peptides can explain differences between the pro-inflammatory properties of enalaprilat and cilazaprilat.
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PMID:Effects of cilazaprilat and enalaprilat on experimental dermatitis in guinea pigs. 171 14

The purpose of this investigation was to study the effect of an angiotensin converting enzyme inhibitor (enalaprilat) on the morphologic manifestations of experimentally induced necrotizing tracheobronchitis (NTB). Twenty piglets were anesthetized before saline lung lavage. High frequency flow interrupter (HFFI) ventilation was used with a strategy known to produce NTB. Animals were randomly assigned to receive IV enalaprilat 0.1 mg/kg (ENP-Hi), enalaprilat 0.01 mg/kg (ENP-Lo), or saline (C). After 8 hours of ventilation, the piglets were sacrificed. Total airway injury scores (mean +/- S.D.) were 1.2 +/- 0.7 for ENP-Hi, 0.2 +/- 0.2 for ENP-Lo, and 21.3 +/- 16 for group C. Enalaprilat minimizes NTB lesions in neonatal piglets exposed to high frequency oscillatory ventilation. Although the origin of NTB is multifactorial, airway mucosa ischemia may play an important role. Enalaprilat may compensate for the reduction of mucosal blood flow by limiting formation of angiotensin II and/or preventing degradation of bradykinin.
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PMID:Necrotizing tracheobronchitis (NTB) following high frequency ventilation: role of an angiotensin converting enzyme inhibitor. 184 39

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