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)

Previous studies have shown that angiotensin II (Ang II), by mediating rapid recruitment of collateral circulation, has a protective effect in the setting of acute ischaemia. In an experimental model of acute cerebral ischaemia in the gerbil, Fernandez et al. have reported that the mechanism of the protective effect of Ang 11 is blood pressure (BP)-independent, and that the AT1-receptor antagonist, losartan, but not the ACE inhibitor (ACE-I),enalapril, decreases mortality following unilateral carotid artery ligation. The aim of this study was to examine there producibility of the respective effects of losartan and enalapril, and to verify that these differential effects are drug class-related. Acute cerebral ischaemia was induced in anaesthetised gerbils bv unilateral carotid ligation. The effect of pretreatment with two different ACE-I(enalapril and lisinopril), and two different AT1-receptor antagonists (losartan and candesartan), administered orally or intravenously, on mortality were compared. Kaplan-Meier survival curves at day three were analysed bv a log-rank test. Pretreatment with both enalapril and lisinopril significantly decreased survival at day three compared with controls, while the AT1-receptor antagonists losartan and candesartan, despite similarly lowering BP, did not increase mortality. Coadministration of losartan and enalapril increased mortality to the same extent as enalapril alone. This study confirms that Ang II contributes to protective mechanisms against acute cerebral ischaemia through non AT1-receptor-mediated, BP-independent effects.
J Renin Angiotensin Aldosterone Syst 2001 Jun
PMID:Non-AT(1)-receptor-mediated protective effect of angiotensin against acute ischaemic stroke in the gerbil. 1188 Nov 7

As with many large-scale long-term outcome trials, more questions have been posed than answered regarding the potential role of angiotensin II receptor blockers as first-line agents in chronic heart failure. Given the present data, in patients with left ventricular systolic dysfunction, ACE inhibitors must remain the treatment of choice, owing to the large body of data supporting their use in this clinical syndrome. However, ARBs seems a reasonable alternative for renin-angiotensin axis blockade in the significant number of heart failure patients who are genuinely intolerant of ACE inhibitors. The pendulum has now swung back in favour of ACE inhibition for chronic heart failure, although one can only await with great expectation the results of the ongoing trials comparing not only angiotensin II receptor blockers with ACE inhibitors but a combination of the two with regards tolerability and survival. Whether this potentially useful class of drugs will ultimately become the cornerstone of heart failure therapy in place of, or in addition to, ACE inhibitors is still in debate, but hopefully we should not have to wait too long for the definitive answers.
J Renin Angiotensin Aldosterone Syst 2000 Mar
PMID:Angiotensin II receptor blockers in chronic heart failure--not as ELITE as expected! 1196 90

In the normal state, vascular ACE regulates local angiotensin II formation and plays a crucial role in the regulation of blood pressure, whereas chymase is stored in secretory granules in mast cells and has no enzymatic effects such as angiotensin II-forming activity. Chymase has a maximal activity immediately upon release into the extracellular matrix in vascular tissues after mast cells have been activated by a strong stimulus such as experienced by catheter-injured and grafted vessels. Therefore, chymase plays an important role in forming local angiotensin II when vascular tissues are injured, and inhibition of chymase may be useful for preventing vascular proliferation in grafted vessels and after PTCA (Figure 6).
J Renin Angiotensin Aldosterone Syst 2000 Mar
PMID:Role of chymase on vascular proliferation. 1196 91

Is heart failure an endocrine disease? Historically, congestive heart failure (CHF) has often been regarded as a mechanical and haemodynamic condition. However, there is now strong evidence that the activation of neuroendocrine systems, like the renin-angiotensin-aldosterone system (RAAS) and sympathetic nervous system, as well as the activation of natriuretic peptides, endothelin and vasopressin, play key roles in the progression of CHF. In this context, agents targeting neurohormones offer a highly rational approach to CHF management, with ACE inhibitors, aldosterone antagonists and beta-adrenergic blockade improving the prognosis for many patients. Although relevant improvements in clinical status and survival can be achieved with these drug classes, mortality rates for patients with CHF are still very high. Moreover, most patients do not receive these proven life-prolonging drugs, partially due to fear of adverse events, such as hypotension (with ACE inhibitors), gynaecomastia (with spironolactone) and fatigue (with beta-blockers). New agents that combine efficacy with better tolerability are therefore needed. The angiotensin II type 1 (AT(1))-receptor blockers have the potential to fulfil both these requirements, by blocking the deleterious cardiovascular and haemodynamic effects of angiotensin II while offering placebo-like tolerability. As shown with candesartan, AT(1)-receptor blockers also modulate the levels of other neurohormones, including aldosterone and atrial natriuretic peptide (ANP). Combined with its tight, long-lasting binding to AT(1)-receptors, this characteristic gives candesartan the potential for complete blockade of the RAAS-neurohormonal axis, along with the great potential to improve clinical outcomes.
J Renin Angiotensin Aldosterone Syst 2000 Sep
PMID:Neurohumoral blockade in CHF management. 1196 92

The evaluation of ACE knockout mice has illustrated the tremendous physiologic importance of the RAAS. We have discussed how interruption of this system influences blood pressure, renal function, renal development, serum and urine electrolyte composition, haematocrit and male reproductive capacity. This body of data underlines the modelling of the RAAS as a type of biological machine that is positioned to respond to environmental insult and to maintain a homeostasis of blood pressure, blood volume and electrolyte composition. These data also emphasise Harry Goldblatt's seminal observation that the kidney and the RAAS are intimately linked in the regulation of normal blood pressure.
J Renin Angiotensin Aldosterone Syst 2000 Jun
PMID:Insights derived from ACE knockout mice. 1196 4

This study in spontaneous hypertensive rats (SHR) was designed to determine whether a greater fall in blood pressure (BP) could be achieved with the combination of an angiotensin-converting enzyme inhibitor (ACE-I) and an AT(1)-receptor blocking drug than with higher doses of either drug alone. The peak effect of captopril occurred 3 4 hours post-dose and a plateau response was achieved with 10 mg/kg. The peak effect of losartan occurred 7 8 hours post-dose and a plateau response was achieved with 10 mg/kg. Increasing the dose of either drug caused no greater fall in BP, but increased the duration of the effect. Captopril, 10 mg/kg, administered with losartan 10 mg/kg caused a greater fall in BP than captopril or losartan, 20 mg/kg. This was present after acute doses or after one week of daily therapy. The combination of ACE-I and AT(1)-blocking drugs is more effective than either therapy alone and may be a useful combination to manage hypertension and/or cardiac failure.
J Renin Angiotensin Aldosterone Syst 2002 Mar
PMID:Interaction of ACE inhibitors and AT(1)-receptor blockers on maximum blood pressure response in spontaneous hypertensive rats. 1198 42

The rationale for using angiotensin-converting enzyme inhibitors (ACE-I) or angiotensin receptor blockers (ARBs) in combination with thiazide diuretic therapy has centred formerly around antihypertensive synergy and counter-balancing adverse metabolic effects, particularly on potassium homeostasis. However, two recent landmark clinical trials that included high-risk hypertensive patients have now provided an evidence base for this form of combination therapy by demonstrating the efficacy of perindopril/indapamide and losartan/ hydrochlorothiazide in reducing vascular morbidity and mortality, a proportion of the benefit being unaccounted for by blood pressure reduction alone. Several unresolved issues remain concerning class effects versus specific drug effects, optimal dosing, potential differences in efficacy between ACE-I and ARBs, whether elderly mild hypertensives benefit from this form of combination therapy, and the possibility that the optimal regimen may be a triple combination of ACE-I, ARB and thiazide diuretic. These issues will be resolved by ongoing and future major endpoint trials in hypertension.
J Renin Angiotensin Aldosterone Syst 2002 Jun
PMID:Combining renin-angiotensin-aldosterone system blockade with diuretic therapy for treatment of hypertension. 1222 46

Interference with locally generated angiotensin II most likely underlies the beneficial effects of renin-angiotensin system blockers in cardiac disorders. Since renin is not synthesized in the heart, this enzyme must be sequestered from the circulation in order to allow angiotensin generation at cardiac tissue sites. This review addresses the various ways through which circulating (i.e., kidney-derived) renin may reach cardiac tissue sites, considering in particular the possibility that prorenin, the inactive precursor of renin, is involved in cardiac angiotensin generation, as the plasma concentrations of prorenin are tenfold higher than those of renin. Renin and prorenin diffuse into the cardiac interstitial space and bind to cardiac (pro)renin receptors/renin-binding proteins. One of these receptors is the mannose 6-phosphate/insulin-like growth factor II receptor. This receptor not only binds mannose 6-phosphate-containing ligands like renin and prorenin, it also internalizes these enzymes, and activates prorenin intracellularly. This process possibly represents (pro)renin clearance, since intracellular angiotensin generation could not be demonstrated following (pro)renin uptake by cardiomyocytes. Angiotensin II-mediated myocyte proliferation did occur when incubating cardiomyocytes with prorenin plus angiotensionogen. The effects of prorenin plus angiotensinogen were comparable to those of 100nmol/l angiotensin II, although the angiotensin II levels in the medium during exposure of the cells to prorenin plus angiotensinogen were <1nmol/l. This suggests that cardiac angiotensin II generation by circulating renin occurs predominantly on the cell surface. The presence of ACE and/or renin on the cell membrane, in the microenvironment of angiotensin receptors, would allow maximal efficiency of local angiotensin II generation, i.e., immediate binding of angiotensin II to its receptors with minimal loss into the extracellular space.
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PMID:Prorenin uptake in the heart: a prerequisite for local angiotensin generation? 1243 45

We had reported that in the ischemic heart, locally formed bradykinin (BK) and angiotensin II (Ang II) activate B2- and AT1-receptors on sympathetic nerve terminals (SNE), promoting reversal of the norepinephrine (NE) transporter in an outward direction (i.e., carrier-mediated NE release). Although both BK and Ang II contribute to ischemic NE release, Ang II is likely to play a more important role. Since BK is formed by ischemic SNE, we questioned whether cardiac SNE also contribute to local Ang II formation, in addition to being a target of Ang II. SNE were isolated from surgical specimens of human right atrium and incubated in ischemic conditions. These SNE released large amounts of endogenous NE via a carrier-mediated mechanism, as evidenced by the inhibitory effect of desipramine on this process. Moreover, two renin inhibitors, pepstatin-A and BILA 2157 BS, the ACE inhibitor enalaprilat and the AT1-receptor antagonist EXP3174 prevented ischemic NE release. Western blot analysis revealed the presence of renin in cardiac SNE. Renin abundance increased more than three-fold during ischemia. Thus, renin is present in cardiac SNE and is activated during ischemia, eventually culminating in Ang II formation, stimulation of AT1-receptors and carrier-mediated NE release. Our findings uncover a novel autocrine mechanism, by which Ang II, formed at SNE in myocardial ischemia, elicits carrier-mediated NE release by activating prejuntional AT1-receptors.
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PMID:Activation of a renin-angiotensin system in ischemic cardiac sympathetic nerve endings and its association with norepinephrine release. 1248 10

Renin-angiotensin-aldosterone system (RAAS) blockade with angiotensin-converting enzyme inhibitors (ACE-I) or angiotensin II (Ang II), AT(1)-receptor blockers (ARB) is the cornerstone of renoprotective therapy. Still, the number of patients with end-stage renal disease is increasing worldwide, prompting the search for improved renoprotective strategies. In spite of proven efficacy at group level, the long-term renoprotective effect of RAAS blockade displays a marked between-patient heterogeneity, which is closely linked to between-patient differences in the intermediate parameters of blood pressure, proteinuria and renal haemodynamics. Of note, the between-patient differences by far exceed the between-regimen differences, and thus may provide a novel target for exploration and intervention. The responsiveness to RAAS blockade appears to be an individual characteristic as demonstrated by studies applying a rotation-schedule design. The type and severity of renal disease, obesity, insulin-resistance, glycaemic control, and genetic factors may all be involved in individual differences in responsiveness, as well as dietary factors, such as dietary sodium and protein intake. Several strategies, such as dietary sodium restriction and diuretic therapy, dose-titration for proteinuria, and dual RAAS blockade with ACE-I and ARB, can improve the response to therapy at a group level. However, when analysed for their effect in individuals, it appears that these measures do not allow poor responders to catch up with the good responders, i.e. in spite of their efficacy at group level, the available measures are usually not sufficient to overcome individual resistance to RAAS blockade. We conclude that between-patient differences in responsiveness to renoprotective intervention should get specific attention as a target for intervention. Unravelling of the underlying mechanisms may allow development of specific intervention. Based on the currently available data, we propose that response-based treatment schedules, with a multidrug approach titrated and adapted at individual responses rather than fixed treatment schedules, may provide a fruitful strategy for more effective renoprotection.
J Renin Angiotensin Aldosterone Syst 2002 Dec
PMID:Between-patient differences in the renal response to renin-angiotensin system intervention: clue to optimising renoprotective therapy? 1258 64


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