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: UMLS:C0038454 (stroke)
147,016 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Selective blockade of the angiotensin II AT1 receptor represents a novel mechanism for interrupting the renin-angiotensin system without altering the potential benefits of AT2 receptor stimulation. This selective inhibition produces none of the disadvantages associated with reduced bradykinin metabolism and angiotensin II generated by non-angiotensin-converting enzyme pathways. Eprosartan is a potent (1.4 nmol/L) AT1 receptor antagonist that competitively blocks angiotensin II-induced vascular contraction. In various animal models of disease, including hypertension and stroke, eprosartan is effective in reducing disease progression. Eprosartan also has sympathoinhibitory activity, as demonstrated by an inhibition of the pressor responses induced by activation of sympathetic outflow through spinal cord stimulation in pithed rats. In contrast, some of the other angiotensin II receptor antagonists, such as losartan, at equivalent angiotensin II blocking doses, have no effect on sympathetic nervous system activity. Because eprosartan can inhibit both the direct effects of angiotensin II as well as the indirect effects that are mediated by enhanced sympathetic neurotransmission, this may represent an important advance in the treatment of elevated systolic blood pressure.
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PMID:Pharmacology of eprosartan, an angiotensin II receptor antagonist: exploring hypotheses from clinical data. 1046 20

In contrast with the expected results, the Captopril Prevention Project study has found that the relative risk of stroke was greater by 25% in patients treated with ACEI than in patients receiving the conventional diuretics +/- betablockers regimen (Hanson et al. ISH Amsterdam, June 98). This difference persisted after adjustment for the initial differences of blood pressure levels between the groups after randomisation. This does not mean that ACEI would worsen the risk of stroke when compared to a placebo, since a potent protective effect of diuretics and betablockers on the relative risk of stroke has long been demonstrated. Nonetheless, these results suggest that for a similar blood pressure lowering effect, conventional therapy is more effective than ACEI to prevent stroke. This finding, in discrepancy with the current prevailing opinion that ACEI have emerged as the most effective preventive treatment to reduce cardiovascular morbidity, is regarded as surprising by the investigators. However, a number of animal experimental data may help to envisage the complete inhibition of angiotensin II formation as a two-edged sword, because of the multiplicity of its receptors mediating different, and even opposite effects. In a series of experimental studies in mammals, the group of Fernandez has provided a bundle of observations suggesting that angiotensin II contributes to early reperfusion following acute ischemia by enabling the recruitment of pre-existing collateral vascularisation, an effect mediated via the stimulation of non-AT1 receptors (possibly AT2). Indeed, the worsening of stroke in the gerbil after incomplete ligation of the carotid by pre-treatment with ACEI had been demonstrated by these authors (J Cerebral Blood Flow Metab, 1988; 24:937), and they further show that pre-administration of losartan significantly reduced the ischemic brain damage and the mortality induced by the abrupt ligation of one carotid, but that this preventive effect of losartan was abolished if enalapril was co-administrated (J Cardiovasc Pharmacol 1994; 24:937). The first available clinical data on stroke risk with ACEI reported in the CPP study, showing a less effective prevention of stroke with ACEI than diuretics supports the hypothesis that similar mechanism may also prevail in humans, and lead us to propose to discuss the rationale for a large multicentric trial aiming to compare the protective effect of ARAT1 and ACEI on the risk of recurrence of stroke.
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PMID:[Could angiotensin II type I receptor antagonists have a superior beneficial effect than that of angiotensin II converting enzyme inhibitors with respect to the risk of cerebrovascular accident?]. 1048 53

A male Wistar rat model of stroke (middle cerebral artery occlusion; MCAO) was used to study the angiotensin II (Ang II) receptor subtype 2 (AT2) gene expression by reverse transcription polymerase chain reaction (RT-PCR) and immunohistochemical staining. After permanent occlusion of the middle cerebral artery (MCA), AT2 receptor gene expression was found to increase in the infarct cortex by 2.7-fold (1 day) and 1.7-fold (3 days), respectively. Positive AT2 immunostaining was also observed in the infarct area of the cerebral cortex. Apoptotic markers were detected in the necrotic area of the stroke cerebral cortex 1 day after MCAO. This demonstrated up-regulation of AT2 receptor may be involved in the apoptosis of tissue repair after stroke.
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PMID:Expression of angiotensin II AT2 receptor in the acute phase of stroke in rats. 1081 89

Aldosterone breakthrough during ACE inhibitor therapy has been reported. This study investigates changes in plasma aldosterone concentration (PAC) and its mechanism and effects on target organ damage during long-term angiotensin II type 1 (AT1) receptor antagonist (AT1A) therapy in hypertensive rats. An AT1A (candesartan, 1 mg/kg per day PO) was administered in stroke-prone spontaneously hypertensive rats from 4 weeks of age for 34 weeks. PAC was significantly decreased during the first 4 weeks but showed aldosterone breakthrough after 8 weeks of AT1A administration. Plasma angiotensin II concentration was significantly elevated, whereas no change was seen in plasma ACTH or serum potassium. The mechanism(s) of aldosterone breakthrough were investigated by giving high doses of candesartan (3 mg/kg per day PO), dexamethasone (200 microg/kg per day IP), or the AT2 antagonist (PD123319, 10 mg/kg per day SC) during the last week of the 24-week AT1A treatment period. Dexamethasone and AT2 antagonist but not high-dose AT1A produced a significant decrease in PAC, with a larger decrease produced by the AT2 antagonist. To clarify the effects of the residual aldosterone, effects of coadministration of low-dose spironolactone (10 mg/kg per day SC), an aldosterone antagonist, on left ventricular hypertrophy and expression of brain natriuretic peptide mRNA were determined. Low-dose spironolactone further improved left ventricular hypertrophy and brain natriuretic peptide mRNA expression despite no additional depressor effect. These results suggest that aldosterone breakthrough occurs during long-term AT1A therapy, mainly by an AT2-dependent mechanism. Residual aldosterone may attenuate the cardioprotective effects of AT1A.
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PMID:Aldosterone breakthrough during angiotensin II receptor antagonist therapy in stroke-prone spontaneously hypertensive rats. 1210 34

Recently, we have shown that treatment of stroke-prone spontaneously hypertensive rats with angiotensin inhibitors for a limited time-window before puberty results in an attenuation of hypertensive nephrosclerosis in later life. The aim of this study was to examine the applicability of this therapeutic paradigm to a low-renin model. Dahl salt-sensitive (Dahl-S) rats were fed a high-salt diet from age 6 weeks. Some rats were treated with the angiotensin receptor blocker (ARB) candesartan cilexetil (2 mg/kg/d) from weaning to puberty (age 3-10 weeks), whereas other rats were treated continuously until overt renal damage was seen (age 3-16 weeks). Dahl-S rats on a high salt diet had increased blood pressure (207 +/- 3 vs. 125 +/- 2 mm Hg), proteinuria, and glomerular/vascular histological changes. The prepubertal treatment with ARB resulted in a continued suppression of blood pressure (153 +/- 2 mm Hg) at 16 weeks. Both proteinuria and renal histological changes were significantly (p < 0.05) attenuated, but not completely prevented by the treatment. No significant differences in plasma renin activity, renin mRNA, or AT1/AT2 mRNA were seen between groups. These results suggest that prepubertal treatment affords sustained renoprotection, even in an animal model with a suppressed renin-angiotensin system, and support the notion that appropriate prepubertal intervention may lead to a partial attenuation in the susceptibility to inherited renal diseases.
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PMID:Prepubertal treatment with angiotensin receptor blocker causes partial attenuation of hypertension and renal damage in adult Dahl salt-sensitive rats. 1213 77

Based on the Medical Research Council study, Brown and Brown hypothesized in 1986 that angiotensin II could protect against strokes by causing vasoconstriction of the proximal cerebral arteries, thereby preventing Charcot-Bouchard aneurysms from rupturing. In light of this hypothesis, we evaluated the cerebroprotective effects of various drug classes in recent double-blinded, prospective, randomized trials, such as SHEP, PATS, CAPPP, HOPE, PROGRESS, INSIGHT, NORDIL, LIFE, SCOPE, ANBP2, and ALLHAT. Drugs that activate the AT2 receptors, such as diuretics, calcium antagonists, and angiotensin receptor blockers (ARBs), were consistently more beneficial for stroke reduction than drugs devoid of such activation, such as beta-blockers and angiotensin-converting enzyme (ACE) inhibitors, despite an equal fall in arterial pressure (at least in patients with a low incidence of cardiac complications). These clinical and epidemiologic observations are supported by experimental data documenting greater cerebroprotection with ARBs (which increase angiotensin II levels and stimulate the AT2 receptors) than with ACE inhibitors. Stroke is the most devastating consequence of hypertensive cardiovascular disease, and our hypothesis of cerebroprotection by AT2 receptor activation should be tested by a head-to-head comparison of an ARB with an ACE inhibitor.
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PMID:Cerebroprotection mediated by angiotensin II: a hypothesis supported by recent randomized clinical trials. 1554 7

Most of the deleterious effects of angiotensin II (Ang II) on blood pressure (BP), cardiovascular remodeling, and atherosclerosis are mediated by Ang II type 1 (AT1)-receptor activation. This explains why Ang-II-decreasing or blocking drugs have been successful in decreasing global cardiovascular morbimortality in patients with cardiac complications. However, in primary or secondary stroke prevention trials in patients with low cardiac risk, b-blockers and angiotensin-converting enzyme inhibitors (ACEIs), which decrease Ang II formation, seem to be less protective than thiazides and dihydropyridines, which increase Ang II. When compared with a beta-blocker, an Ang II-increasing AT1-receptor blocker better protects against stroke but not against cardiac events, whereas an ACEI gives the same protection against both cardiac and cerebral events. This dissociation between blood-pressure-independent cardiac and cerebral protection between b-blockers or ACEIs versus AT1-blockers in patients with low cardiac risk can be best explained if, besides the beneficial vascular effect of AT1-receptor blunting, there is evidence of a beneficial effect of non-AT1-receptor activation. In this review, we present experimental evidence for AT2- and AT4-receptor-mediated brain-anti-ischemic mechanisms and propose a direct comparison of AT1-blockers with ACEIs to prove the clinical effectiveness of non-AT1-mediated mechanisms in stroke prevention, particularly in patients with a higher risk for stroke than for cardiac complications.
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PMID:Is the angiotensin II Type 2 receptor cerebroprotective? 1512 69

Stroke is one of the leading causes of invalidism and death in the industrialized world. Among others, the renin- angiotensin system (RAS) has been implicated in the pathogenesis and outcome of ischemic events, including stroke. Angiotensin II (Ang II), the major effector peptide of the RAS, exerts most of its well-defined physiologic and pathophysiologic actions, including those on the central and peripheral nervous system, through its Ang II type 1 (AT1) receptor subtype. This receptor not only contributes to stroke-related pathologic mechanisms (eg, hypertension, atherothrombosis, and cardiac hypertrophy) but also may be involved in postischemic damage to the brain. However, it has also been demonstrated that Ang II, via its AT2 receptor subtype, accelerates neuronal tissue regeneration after injury. In this article, we review the experimental evidence supporting the notion that blockade of brain AT1 receptors can be beneficial with respect to stroke incidence and outcome. We further delineate how AT2 receptors could be involved in neuronal regeneration following brain injury, such as stroke. In doing so, we also attempt to shed some light on the mechanisms by which AT1 receptor blockers, which leave the AT2 receptor unopposed, might exert protective actions in brain ischemia.
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PMID:Are angiotensin receptor blockers neuroprotective? 1525 59

Several large clinical trials have demonstrated that successful control of blood pressure decreases the incidence of strokes. Also, drugs that stimulate the production of angiotensin II, such as diuretics, calcium channel blockers (CCBs) and angiotensin receptor blockers (ARBs), provide additional stroke reduction than drugs that suppress angiotensin II production such as beta-blockers and angiotensin converting enzyme (ACE) inhibitors. Since the stroke-protective effect of angiotensin II is mediated through stimulation of the AT2 receptors, drugs that selectively block the AT1, such as the ARBs, provide greater stroke protection than the other antihypertensive drugs. The blockade of the AT1 receptors lessens local brain ischemia, whereas the stimulation of the AT2 receptors increases local blood flow through recruitment of collateral vessels. Among the ARBs, losartan possesses certain unique properties not shared by other members of its class, which enhance its stroke-protective effects. These include the prevention of platelet adhesiveness and aggregation and the decrease of serum uric acid levels, which both lead to reduction in cardiovascular and cerebrovascular events. (
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PMID:Stroke prevention with losartan in the context of other antihypertensive drugs. 1553 51

Stroke is a major cause of death and disability and its incidence increases linearly with age and the level of systolic and diastolic blood pressure. Stroke, besides being a cause of long-term disability for the affected person, also imposes a significant burden on society and healthcare costs. Although good blood pressure control is very critical for stroke prevention, angiotensin receptor blockers (ARBs) may be superior to angiotensin-converting enzyme inhibitors (ACEIs) for the same degree of blood pressure control. This hypothesis has clinical and experimental support. ARBs prevent stroke incidence by blocking the angiotensin II (AII), AT1 receptors preventing brain ischaemia and allowing AII to stimulate the unoccupied AT2 receptors, which improve brain ischaemia. ACEIs, by reducing AII generation, are less effective in preventing stroke. This hypothesis provides evidence that AII plays an important role in the prevention of stroke. Certain ARBs like losartan, and telmisartan, irbesartan and candesartan possess additional properties which may play a role in stroke prevention, which is independent of AII. These include antiplatelet aggregating, hypouricemic, antidiabetic and atrial antifibrillatory effects. However, the most critical factor in stroke prevention is good blood pressure control irrespective of drug used.
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PMID:Possible pathophysiologic mechanisms supporting the superior stroke protection of angiotensin receptor blockers compared to angiotensin-converting enzyme inhibitors: clinical and experimental evidence. 1604 19


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