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)

We analyzed the components of the renin-angiotensin system (RAS) in ocular tissues of normal rabbit eyes and compared the results with those measured in rabbit eyes with proliferative vitreoretinopathy and ocular hypertension. Proliferative vitreoretinopathy was induced by injection of human platelets into the vitreous humor, and ocular hypertension was induced by injection of alpha-chymotrypsin into the posterior chamber. Angiotensinogen, renin, angiotensin converting enzyme (ACE), angiotensin II (Ang II), and Ang II receptors were assessed using conventional biochemical techniques. The vascularized tissues of normal eyes contained high renin and ACE activities concomitant with low concentration of angiotensinogen and Ang II. In general, in the ocular humors, the opposite was found. The Ang II receptor density was highest in the uveal tract [range 35-190 fmol/mg protein]. The AT1 receptor subtype predominated [> 80%]. The RAS was only minimally different in the two pathological models except that, in ocular hypertension, the renin activity in the uveal tract was reduced [-50%]. Also, the ratio of AT1 to AT2 receptors changed as compared to control, although the total receptor density remained unaltered. In conclusion, we present evidence for the presence of a complete local RAS in the rabbit eye, which is only marginally affected by the two pathological models studied.
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PMID:The renin-angiotensin system in the rabbit eye. 887 36

The aim of this study was to compare the effects of angiotensin converting enzyme (ACE) inhibition, angiotensin II (AII) AT1-receptor blockade, and dihydropyridine calcium antagonism on hypertrophy and on vascular albumin permeability in kidney, heart, and mesenteric artery in a model combining genetic hypertension and diabetes mellitus. Diabetes mellitus was induced by streptozotocin in 8-week-old spontaneously hypertensive rats. The animals were randomized to receive no treatment, the angiotensin converting enzyme inhibitor ramipril, the AII AT1-receptor blocker valsartan, or the dihydropyridine calcium antagonist lacidipine for 3 weeks. Vascular albumin permeability was measured as the tissue content of intravenously injected Evans blue dye (EB) in kidney, heart, and mesenteric artery and the tissue/plasma EB ratio was calculated. Systolic blood pressure was reduced by all three antihypertensive regimens. Glycemic control was similar in all diabetic groups. Kidney hypertrophy was not affected by any of the antihypertensive drugs. Hypertrophy of the mesenteric artery was enhanced by lacidipine but was not affected by ramipril or valsartan. Relative heart weight was also increased by lacidipine. Vascular albumin permeability, expressed as EB content in micrograms/gram dry weight or as tissue/plasma EB ratio, was higher in the kidneys of lacidipine-treated rats than in any other group of diabetic rats. There was a positive correlation between kidney weight/body weight and kidney/plasma EB ratio in the diabetic rats. These findings indicate that the dihydropyridine calcium antagonist lacidipine is associated with an unfavorable effect on vascular hypertrophy and on vascular albumin permeability in the kidneys in rats with hypertension and diabetes mellitus. Furthermore, there seems to be a coupling in the diabetic kidney between hypertrophy and increased vascular albumin permeability.
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PMID:Vascular hypertrophy and albumin permeability in a rat model combining hypertension and diabetes mellitus. Effects of calcium antagonism, angiotensin converting enzyme inhibition, and angiotensin II-AT1-receptor blockade. 887 46

The present study was designed to clarify whether modulation of norepinephrine (NE) release by vascular angiotensin (Ang) II is involved in the increased peripheral sympathetic activity of spontaneously hypertensive rats (SHR). In the perfusion system of isolated mesenteric vascular beds, periarterial nerve stimulation (PNS)-evoked NE overflow was significantly greater in SHR than Wistar-Kyoto rats (WKY). Administration of Ang II increased PNS-induced NE overflow, which could be reversed by pretreatment with the AT1 receptor antagonist CV-11974 in both types of rats; the facilitation by Ang II was more potent in SHR. Moreover, CV-11974 by itself could attenuate PNS-evoked NE overflow, the extent of which was also significantly greater in SHR, suggesting an augmented sympatho-facilitatory effect of endogenous Ang II in SHR. Consistently, sympatho-facilitation by Ang I, which could be abolished by the angiotensin converting enzyme (ACE) inhibitor imidaprilat, was apparently greater than that of Ang II in SHR, despite no difference in WKY. These findings suggest that the increased peripheral sympathetic activity in SHR is attributed not only to the elevated sensitivity of nerve endings to Ang II but also to the increased local generation of Ang II, an effect possibly mediated by augmented vascular ACE activity.
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PMID:Local renin-angiotensin system in sympathetic overactivity of spontaneously hypertensive rats. 889 45

Phase I human studies can be used to differentiate a novel agent from existing drugs that influence the same pathway (eg, angiotensin-converting enzyme [ACE] inhibitors). Human forearm vasculature provides a useful experimental model for such studies because antagonism of local effects of agonists on resistance vasculature can be quantified, unconfounded by reflex cardiovascular responses to systemically applied agonists. In this model, inhibition of ACE with enalapril (given orally) or its active metabolite enalaprilat (given into the brachial artery) influences responses to some, but not all, vasoactive peptides that are substrates of ACE in vitro. Vasoconstrictor responses to angiotensin I (A I) are antagonized, while vasodilator responses to bradykinin are potentiated. Responses to vasoactive intestinal peptide (VIP), substance P (SP), and atrial natriuretic peptide (ANP) are unaltered by ACE inhibition. Vasodilator responses to bradykinin are antagonized by the B2-receptor icatibant and are blunted (but not abolished) by inhibition of the L-arginine/NO pathway with L-NG-monomethyl arginine. In contrast to inhibition of ACE with enalapril, blockade of the AT1 receptor with losartan results in similar inhibition of vasoconstrictor responses to both A I and angiotensin II but has no significant effect on the vasodilator action of bradykinin. The implication is that losartan provides more specific blockade of the renin-angiotensin pathway than does inhibition of ACE. The in vivo methods described in the study confirm the mechanistically relevant differentiation between AT1-receptor antagonism and ACE inhibition in humans.
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PMID:Angiotensin II-receptor (AT1) blockade in the human forearm. 891 43

Potential involvement of brain endogenous angiotensin II in the nociception was investigated in mice by using ACE inhibitors and an angiotensin II antagonist. The mice were allocated to the groups which were orally treated with spirapril (5 mg/kg), trandolapril (5 mg/kg), enalapril (30 mg/kg), losartan (10 mg/kg), or vehicle for 1 day (single dose groups) and 7 days (repeated doses groups). Significantly longer jump latencies were obtained for the groups repeatedly treated with spirapril, trandolapril and losartan, while the group with enalapril gained no effect. In contrast, the single dosing of all agents failed to show antinociceptive effect. The brain ACE activity was determined ex vivo immediately after the hot-plate test, and showed to be suppressed for the groups repeatedly treated with spirapril or trandolapril. In the group repeatedly treated with losartan, ex vivo autoradiography depicted the marked decrease in angiotensin II-binding capacity to the sites containing exclusively AT1 receptors within the blood-brain barrier. The antinociceptive effects of repeated doses of spirapril and losartan were reversed by naloxone. These results suggest that brain endogenous angiotensin II is likely to be involved in central nociceptive mechanisms by its antagonistic interaction with endogenous opioid system.
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PMID:Antinociceptive effects of angiotensin-converting enzyme inhibitors and an angiotensin II receptor antagonist in mice. 893 11

The effects of chronic treatment with the specific AT1 angiotensin receptor antagonist, irbesartan, or the angiotensin converting enzyme inhibitor, enalapril, were assessed in uninephrectomized fawn-hooded hypertensive rats (FHH) and compared with vehicle treatment. Three days after uninephrectomy, irbesartan (240 mg/liter), enalapril (80 mg/liter) or vehicle were administered via the drinking water. Systolic blood pressure (SBP) and protein excretion rates (UprotV) were determined monthly. In rats receiving irbesartan (N = 7) and enalapril (N = 6) SBP (132 +/- 3 mm Hg and 133 +/- 6, respectively) was essentially normalized at 12 weeks when compared with vehicle (169 +/- 6 mm Hg (N = 6); all comparisons were P < 0.05 by ANOVA). Similarly, proteinuria was lower in irbesartan (44 +/- 12 mg/day) and enalapril (19 +/- 2) groups versus vehicle (123 +/- 10 mg/day). Treatment with both drugs was associated with marked reduction in glomerulosclerosis at 12 weeks (both < 5% vs. vehicle, 43 +/- 9%) without effect on glomerular volume. In identically prepared rats, glomerular capillary hydraulic pressure (PGC, estimated from stop-flow pressure, Psf) was lower in FHH receiving irbesartan (58 +/- 1 mm Hg, N = 6) or enalapril (54 +/- 2, N = 6) than in vehicle-treated rats, in whom PGC was greatly elevated (68 +/- 2 mm Hg; N = 7). Despite this, GFR and single nephron GFR were well maintained. These data support a critical role for AT1 receptor-mediated, angiotensin-dependent processes in the pathogenesis of hypertension in FHH, and further implicate elevated PGC as a major determinant of glomerular injury in this model.
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PMID:The angiotensin receptor antagonist, irbesartan, reduces renal injury in experimental chronic renal failure. 894 34

Responses to angiotensin I-(3-10), the precursor for angiotensin IV, were investigated in the anesthetized cat. Intravenous injections of the precursor caused dose-related increases in systemic arterial pressure that were similar to responses elicited by angiotensin i.v. and that were inhibited by captopril. in the hindlimb vascular bed of the cat under constant-flow conditions, injections of the substrate into the perfusion circuit in doses of 3-100 micrograms caused dose-related increases in hindlimb perfusion pressure that were rapid in onset and were not altered by the presence of a time-delay coil in the perfusion circuit. Dose-response curves for the precursor and angiotensin i.v. were parallel, and the precursor was approximately twofold less potent than angiotensin i.v. in its ability to increase hindlimb perfusion pressure. Responses to the precursor were inhibited by captopril in a dose that attenuated hindlimb vasoconstrictor responses to angiotensin I. Increases in hindlimb perfusion pressure in response to angiotensin I-(3-10) were inhibited by DuP-532 in a dose that attenuated the response to angiotensin i.v. PD-123,319, an AT2 receptor antagonist, had no significant effect on responses to angiotensin I-(3-10). The present results suggest that angiotensin I-(3-10) is rapidly and efficiently converted by an angiotensin converting enzyme-dependent pathway into an active peptide, which induces vasoconstriction by activating AT1 receptors in the peripheral vascular bed of the cat.
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PMID:Analysis of responses to angiotensin I-(3-10) in the hindlimb vascular bed of the cat. 896 54

Numerous studies suggest that the renin angiotensin system (RAS) is involved in the development of cardiac hypertrophy. In the present study we produced cardiac hypertrophy in rats subjected to abdominal aortic banding and also induced cardiac regression by the administration of an angiotensin converting enzyme (ACE) inhibitor, enalapril, at 3, 10 and 30 mg/kg/day. Each drug was administered to the rats for 6 weeks from 6 weeks after aortic banding. The left ventricular weight significantly decreased at 10 and 30 mg/kg/day of enalapril as well as the systolic blood pressure. Using the reverse transcriptase polymerase chain reaction, the increased levels of ACE and AT1 mRNA were significantly inhibited in the aortic banding rats treated with the above concentrations of enalapril. The ACE activity in both the plasma and heart tissue preparations was significantly inhibited by enalapril. Similar observations were also seen after the administration of angiotensin type 1 receptor blockade, E-4177, into the aortic banding rats. The treatment with enalapril at 3 mg/kg/day did not reduce the left ventricular weight or the systolic blood pressure in the aortic banding rats. However, this low-dose treatment did significantly decrease the left ventricle to body weight ratio in the aortic banding rats without a reduction of the systolic blood pressure. Therefore, using the low-dose enalapril, the ACE activity in plasma was in part inhibited and the levels of ACE mRNA also decreased in the heart tissue of aortic banding rats, while the level of AT1 mRNA showed no such decrease. These results thus indicate that chronic ACE inhibitor at low doses has a beneficial effect on the regression in the pressure-induced cardiac hypertrophy. It is thus assumed that this effect may also contribute to the presence of an alternate pathway for the conversion of angiotensin I to angiotensin II which might also act as a possible mechanism for cardiac regression.
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PMID:Chronic low-dose treatment with enalapril induced cardiac regression of left ventricular hypertrophy. 897 63

Although increased deposition of collagen proteins has been described after myocardial infarction (MI), little is known of time-dependent transcriptional alteration of specific cardiac collagen sub-types as well as the degradative mechanisms for cardiac collagens in right and left ventricular myocardium remote to large left ventricular infarction. We sought to study collagen mRNA abundance and the deposition of specific collagen subtypes in noninfarcted left and right rat heart muscle at different times after MI. We also assessed the activity of different myocardial matrix metalloproteinases (MMP) using zymography to gain some information about degradative pathways for collagen. Furthermore, we assessed passive compliance properties of the right ventricle in experimental hearts. Finally we investigated the role of the renin angiotensin system in the collagen gene expression by administration of an angiotensin converting enzyme (ACE) inhibitor (ramipril) and an angiotensin II receptor type I antagonist (losartan) in experimental animals. We observed that the mRNA abundance of types I and III collagen were increased 3 days after myocardial infarction in both viable left and uninfarcted right ventricular tissues, that they peaked at 7-14 days, and were maintained at relatively high levels in the 28 and 56 days experimental groups. Stiffness of the right ventricular myocardium was significantly increased in the 56 days experimental group when compared to that of control values. These findings correlated with increased immunohistochemical staining patterns of different collagen species in the surviving right (and left) cardiac interstitium of 14, 28, and 56 day experimental cardiac groups. The elevation of fibrillar collagen mRNA abundance in noninfarcted muscle from ventricular chambers was not significantly altered after treatment of experimental animals with ramipril and losartan for up to 14 days. MMP activity was increased in viable left ventricle at 14, 28 and 56 days and at 14 days in the right ventricle in experimental animals when compared to controls. These results indicated that (1) activation of transcription of collagen types I and III gene occurs in acute and chronic MI, and that fibrillar collagen proteins are deposited in the noninfarcted cardiac interstitium after a lag period relative to increased corresponding mRNA abundance; (2) an increase in MMP activity in chronic experimental hearts indicates that increased collagen deposition may be due to an increment in collagen synthesis rather by reduced degradation of collagen, and that MMP activation may be important in remodeling of the noninfarcted cardiac stroma; (3) an increase of right ventricular stiffness was associated with increased deposition of collagen; (4) as losartan treatment is not associated with any normalization of elevated collagen mRNA abundance, the upregulation of collagen gene expression in this model is not mediated by AT1 receptor; and (5) the reduction of cardiac fibrosis mediated by ACE inhibition and losartan treatment may reside at the post-translational level in cardiac collagen metabolism.
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PMID:Effect of ramipril and losartan on collagen expression in right and left heart after myocardial infarction. 897 79

Rats with congestive heart failure demonstrate striking intrarenal vasoconstriction that contributes to reduced renal excretory function. The importance of specific angiotensin II receptor subtypes (AT1, AT2) for mediating changes in renal hemodynamics was studied in anesthetized rats 1 mo after myocardial infarction (MI) created by coronary artery ligation. AT1 antagonism with losartan alone decreased mean arterial pressure (MAP), total peripheral resistance (TPR), and renal resistance (RR) in control and MI rats to a similar extent without affecting renal blood flow (RBF) or RBF as a percentage of cardiac output (%RBF/CO). In contrast, AT2 antagonism with PD-123319 alone significantly reduced MAP and RR in MI rats without affecting these parameters in control rats. TPR and %RBF/CO were not changed significantly in either group. In contrast, combined AT1- and AT2-receptor inhibition lowered TPR and RR and increased RBF and %RBF/CO, thus the effects of renin or ACE inhibition were mimicked in MI rats. We conclude that angiotensin II acts at both AT1 and AT2 receptor sites in rats with reduced cardiac mass to modulate renal hemodynamics.
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PMID:Renal hemodynamics in rats with myocardial infarction: selective antagonism of angiotensin receptor subtypes. 899 87


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