EC:3.4.23.15 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.23.15 (renin)
35,795 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In addition to the classic circulating renin-angiotensin system, increasing evidence supports the existence of local tissue renin-angiotensin systems (vascular, cardiac, kidney, and brain) that appear to participate in cardiovascular homeostasis and in the pathogenesis of cardiovascular disorders via multiple autocrine and paracrine functions. Components of local systems have been detected in cardiovascular tissues. Studies with angiotensin-converting enzyme (ACE) inhibitors provide further evidence of the existence and importance of tissue renin-angiotensin systems. The blood pressure-lowering effect of quinapril, for example, correlated better with inhibition of tissue ACE (aorta) than with inhibition of plasma ACE. The effects of ACE inhibitors on local tissue renin-angiotensin systems (vascular in particular) may be the crucial determinant of response to treatment. Newer ACE inhibitors, such as quinapril, have favorable side effect profiles as well as apparent tissue specificity for the vascular renin-angiotensin system (and possibly other relevant cardiovascular tissue). Differentiation among ACE inhibitors should play an even more important role in the future for individualization of therapy.
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PMID:Angiotensin-converting enzyme in renal and cerebral tissue and implications for successful blood pressure management. 131 96

The 5-HT2 antagonist ketanserin inhibited salt appetite induced by subchronic deoxycorticosterone acetate (DOCA) treatment, as well as salt appetite induced by sodium depletion (which is governed by the synergy of aldosterone and angiotensin in the brain). The effect of ketanserin was more evident following intraperitoneal than intracerebroventricular injection. On the other hand, ketanserin did not inhibit either salt intake induced by intracranial renin injection, or the need-free salt intake of the multidepleted female rat, which is not dependent on the renin-angiotensin-aldosterone system. These findings suggest that the antinatriorexic action of ketanserin is selective for the mineralcorticoid mechanisms controlling salt appetite. Ritanserin, too, a potent 5-HT2 antagonist showing a different receptor selectivity profile from that of ketanserin, suppressed DOCA-induced salt appetite, thus supporting the involvement of 5-HT receptors in the antinatriorexic action. DOCA treatment alters serotonin metabolism in the central nervous system and it has been proposed that changes in 5-HT metabolism may be important in the genesis of DOCA-induced hypertension. The present results indicate that ketanserin inhibits DOCA-induced salt appetite and suggest that serotoninergic mechanisms might be involved in the elicitation of mineralocorticoid-induced salt appetite.
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PMID:Effect of the 5-HT2 antagonist ketanserin on salt appetite in the rat. 192

Methyldopa, an adrenergic-inhibiting compound, has been used for over 25 years as a safe and effective antihypertensive agent. The postulated mechanisms for the antihypertensive action of this compound have been varied and parallel our broadening knowledge of the role of the adrenergic nervous system in controlling arterial pressure. This review outlines the mechanisms of adrenergic control of the circulation and how the proposed mechanisms of action of methyldopa (ie, dopa decarboxylation, false neurotransmission, inhibition of renin release, and stimulation of alpha receptor sites in the brain) seem to account for the depressor action of the drug. Physiologic effects as well as immunologic and other clinical effects are also discussed.
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PMID:Methyldopa. Mechanisms and treatment 25 years later. 624 89

The transgenic TGR(mRen-2)27 rat, in which the Ren-2 mouse renin gene is transfected into the genome of the Sprague-Dawley rat, develops severe hypertension at a young age that responds to inhibitors of angiotensin-converting enzyme and to antagonists of the type 1 angiotensin II (Ang II) receptor. Despite this evidence that the hypertension is Ang II dependent, TGR(mRen-2)27 rats have suppressed renal renin and renin mRNA content, and there is controversy concerning the plasma levels of renin and Ang II in these rats. We investigated the effect of the transgene on circulating and tissue levels of angiotensin and bradykinin peptides in 6-week-old male homozygous TGR(mRen-2)27 rats. Systolic blood pressure of TGR(mRen-2)27 rats was 212 +/- 4 mm Hg (mean +/- SEM, n = 25) compared with 108 +/- 2 mm Hg (n = 29) for age- and sex-matched Sprague-Dawley rats. Compared with control rats, TGR(mRen-2)27 rats had increased plasma levels of active renin (4.5-fold), prorenin (300-fold), and Ang II (fourfold) as well as tissue levels of Ang II (twofold to fourfold in kidney, adrenal, heart, aorta, brown adipose tissue, and lung and 18-fold in brain). Plasma angiotensinogen levels were reduced to 73% of control, and plasma aldosterone levels were increased fourfold. Plasma angiotensin-converting enzyme was reduced to 64% of control. Compared with control rats, TGR(mRen-2)27 rats had increased bradykinin levels in brown adipose tissue (1.9-fold) and lung (1.6-fold).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Angiotensin and bradykinin peptides in the TGR(mRen-2)27 rat. 759 Oct 27

A great body of evidence emerging, for the most part, from studies on molecular biology has recently supported the existence of a hypothetical peptidergic system acting at the perivascular level for "local" control of vasomotion. Other well-known systems involved in the homeostasis of circulation, i.e. the adrenergic system and the renin-angiotensin system, appear to be modulated by this peptidergic system, whose physiology is still far from being fully understood. The peptides involved in this hypothetical system supplying the vascular tree belong to the families of endothelins, natriuretic peptides, peptides Y, calcitonin gene-related peptides, tachykinins, and tissue angiotensins. Pathophysiological conditions determining tissue ischaemia at different levels (myocardium, brain) have been investigated both in human and animal models and provide suggestive evidence for the involvement of this peptidergic system in the control of "local" vasomotion.
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PMID:The vasoactive peptidergic system. 791 66

Inhibition of the renin-angiotensin system is being applied with considerable success to the treatment of hypertension and heart failure. Angiotensin-converting enzyme (ACE) inhibitors are the only currently available agents that can achieve this objective. In general, the major therapeutic effects of these agents in the treatment of mild to moderate hypertension or of heart failure are exerted on the vascular tissue through inhibition of the renin-angiotensin system and, secondarily, of the sympathetic nervous system. When cardiovascular functional reserve is diminished and autoregulation of regional and systemic blood flow is strained, however, ACE inhibitors may affect other organ functions (heart, kidneys, and possibly brain), hormones other than the renin system, and local tissue humoral systems. The interrelations between the renin-angiotensin system and several other vasoactive systems--including circulating and locally generated tissue hormones and centrally acting neurohormonal factors--are complex and unclear. A better understanding of these mechanisms and interrelations would allow for a more rational therapeutic use of these agents. Unknown also are the clinical effects of prolonged ACE inhibition. Whether the use of ACE inhibitors can provide primary cardiorenal protection requires proof through definitive clinical trials.
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PMID:Long-range safety and protective benefits of angiotensin-converting enzyme inhibitors for hypertension. Do we need more clinical trials? 846 May 11

Current research on angiotensin II AT1-receptor antagonists (AIIRAs) and selected studies presented at the recent symposium held in Amsterdam, The Netherlands, on 6 June 1998, titled 'Angiotensin II Receptor Antagonists are NOT all the Same' are reviewed. AIIRAs offer a number of potential advantages over alternative antihypertensive agents acting via the renin-angiotensin-aldosterone system. They combine blood pressure-lowering effects at least equivalent to those of angiotensin-converting enzyme (ACE) inhibitors, coupled with placebo-like tolerability. Candesartan cilexetil is a novel AIIRA that has demonstrated clinical efficacy superior to losartan, has a sustained duration of action over 24 hours (trough:peak ratio close to 100%) and is well tolerated in patients with essential hypertension. Candesartan cilexetil has a rapid onset of action (approximately 80% of total blood pressure reduction within the first 2 weeks) and dose-dependent effects on blood pressure, is comparable in efficacy to a number of classes of antihypertensives, and is effective in combination therapy (eg, with hydrochlorothiazide and amlodipine). This favourable profile may be due in part to the highly selective, tight binding to and slow dissociation of candesartan from the AT1 receptor. Preliminary studies suggest that candesartan cilexetil also protects end organs (kidney, heart, vasculature, and brain) beyond blood pressure control.
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PMID:Key features of candesartan cilexetil and a comparison with other angiotensin II receptor antagonists. 1007 15

1. When pregnant ewes and their fetuses are exposed to the synthetic glucocorticoid dexamethasone for 2 days early in pregnancy (days 26-28; term 145-150 days), female offspring have increased blood pressure relative to a control group. In one series, this was shown to be due to increased cardiac output, concomitant with a reset mean arterial pressure/heart rate reflex. The first group of such animals had, by the age of 7 years, left ventricular hypertrophy and reduced cardiac functional capacity. 2. The elevation in blood pressure is not maintained by any change in the peripheral renin-angiotensin system (RAS). 3. There is, however, preliminary evidence that some aspects of local RAS (particularly in the kidney and brain) could have participated in the 'programming' event. The levels of mRNA for angiotensin II receptors (AT1, AT2) and angiotensinogen are increased in the kidney of such dexamethasone-treated fetuses in late gestation (130 days), some 100 days after steroid treatment. Similar increases in AT1 mRNA in the medulla oblongata of the fetal brain and large increases of mRNA for angiotensinogen occur in the hypothalamus. 4. These findings, together with evidence from the literature, suggest that both the kidney and parts of the brain are affected by events that also 'program' high blood pressure in the offspring of animals in which the intra-uterine environment has been perturbed at some stage.
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PMID:Organs/systems potentially involved in one model of programmed hypertension in sheep. 1170 4

We have previously reported that hypertension in the young spontaneously hypertensive rat (SHR) is associated with an elevation in tissue angiotensinogen and a novel polysomal protein known to stabilize angiotensinogen mRNA. In our current study we determined the role of the mRNA-stabilizing protein in the regulation of tissue angiotensinogen expression and mean arterial pressure (MAP) in the SHR utilizing antisense oligodeoxynucleotide (AON) inhibition. Three AONs (RNASTAAS1, position 31-50; RNASTAAS2, position 21-40; RNASTAAS3, position 143-162 of the cDNA coding for the polysomal protein) were administered intravenously (dose 450, 900, and 1,800 microg/kg; 1 dosage/day over 3 days) in conscious, chronically instrumented male SHRs at the age of 7 wk. Control SHRs received corresponding scrambled oligodeoxynucleotide sequences (SCR1, SCR2, SCR3). Each animal received the increasing dose schedule. RNASTAAS2 resulted in a reduced expression of the polysomal protein to 21% (liver), 12% (brain), 27% (heart), 18% (renal cortex), and 22% (renal medulla) of control. Angiotensinogen expression was inhibited to 54% (liver), 41% (brain), 68% (heart), 52% (renal cortex), and 74% (renal medulla) compared with control SHRs. Decreases in plasma concentrations of angiotensinogen and plasma renin activities were associated with a significant decrease in MAP from 147 +/- 6 mmHg (after SCR2) to 106 +/- 4 mmHg after RNASTAAS2. The effects of the two other AONs on MAP were less (RNASTAAS1, -31 mmHg; RNASTAAS3, -16 mmHg) with corresponding decreases in mRNAs coding for angiotensinogen and the polysomal protein. A significant decrease in intracellular concentrations of the polysomal protein accompanied AON inhibition. The magnitude of effects (-15 to -41 mmHg) was comparable to the effects of captopril (100 mg x kg(-1) x day(-1) for 3 days: -32 mmHg) and an AT(1) receptor antagonist (L-158809, 1.5 mg x kg(-1) x day(-1) for 3 days: -36 mmHg). These data suggest an important role of the mRNA-stabilizing protein for hepatic and extrahepatic angiotensinogen expression and MAP in the SHR.
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PMID:Antisense oligodeoxynucleotides directed against a novel angiotensinogen mRNA-stabilizing protein reduce blood pressure in spontaneously hypertensive rats. 1515 78

Until the mid-1990s, radiation-induced normal-tissue injury was generally assumed to be solely caused by the delayed mitotic death of parenchymal or vascular cells, and these injuries were held to be progressive and untreatable. From this assumption, it followed that postirradiation interventions would be unlikely to reduce either the incidence or the severity of radiation-induced normal tissue injury. It is now clear that parenchymal and vascular cells are active participants in the response to radiation injury, an observation that allows for the possibility of pharmacologic mitigation and/or treatment of these injuries. Mitigation or treatment of chronic radiation injuries has now been experimentally shown in multiple organ systems (eg, lung, kidney, and brain), with different pharmacologic agents (eg, angiotensin-converting enzyme inhibitors, pentoxifylline, and superoxide dismutase mimetics) and with seemingly different mechanisms (eg, suppression of the renin-angiotensin system and suppression of chronic oxidative stress). Unfortunately, the mechanistic basis for most of the experimental successes has not been established, and assessment of the utility of these agents for clinical use has been slow. Clinical development of pharmacologic approaches to mitigation or treatment of chronic radiation injuries could lead to significant improvement in survival and quality of life for radiotherapy patients and for victims of radiation accidents or nuclear terrorism.
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PMID:Future strategies for mitigation and treatment of chronic radiation-induced normal tissue injury. 1739 44

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