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

Bradykinin, a mediator of inflammation, is produced in the brain during trauma and stroke. It is thought to open the blood-brain barrier, although the mechanism is unclear. We have investigated, therefore, the effect of bradykinin on the expression of interleukin-6 (IL-6), a putative modulator of the blood-brain barrier, in astrocytes. IL-6 gene transcription was evaluated by transient transfection of the human IL-6 promoter linked to the luciferase gene. In murine astrocytes, bradykinin stimulated IL-6 secretion and gene transcription. The effect of bradykinin was blocked by KN-93, an inhibitor of Ca2+/calmodulin-dependent protein kinases, and by bisindolylmaleimide I, an inhibitor of protein kinase C, suggesting the involvement of these protein kinases. Mutations in the multiple response element and the binding site for nuclear factor-kappaB (NF-kappaB), but not in other known elements of the IL-6 promoter, interfered with induction of IL-6 transcription. The involvement of NF-kappaB was supported further by the finding that overexpression of nmIkappaB alpha, a stable inhibitor of NF-kappaB, inhibited the induction of IL-6 by bradykinin. Bradykinin activated NF-kappaB in primary astrocytes as shown by increased DNA binding of NF-kappaB. These data demonstrate that bradykinin stimulates IL-6 expression through activation of NF-kappaB, which may explain several inflammatory effects of bradykinin.
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PMID:Bradykinin induces interleukin-6 expression in astrocytes through activation of nuclear factor-kappaB. 1050 Nov 90

It is known that BK does play a role in the cardioprotective effect of angiotensin converting enzyme (ACE) inhibitors. The present study therefore was conducted to examine the effects of bradykinin (BK) and its antagonist on survival time in spontaneously hypertensive rats (SHR) with coronary artery ligation for 15 min and continuously. We also evaluated the heart rate and blood pressure (BP) in the presence and absence of BK and BK2 receptor antagonist, D-Arg-[Hyp-D-Phe7]BK. Coronary artery was ligated in anaesthetized rats and they were artificially ventilated with room air (stroke volume, 4 ml; 48 strokes/min) as described by the previous investigators. Lead II elecrocardiogram (ECG) was recorded from subcutaneous steel needle electrodes. Results of this investigation indicated that BK treatment 4 microg/kg (i.v.) and 8 microg/kg (i.v.) caused significant (P < 0.05) increase in survival time in SHR with coronary artery ligation for 15 min and continuously as compare to their respective saline-treated controls. However, BK antagonist treatment 4 microg/kg (i.v.) abolished the increase in survival time caused by BK treatment. The mean values of survival time between the saline-treated and BK antagonist plus BK-treated rats did not differ significantly (P > 0.05). The heart rate and BP responses were greatly reduced (P < 0.001) in the presence of coronary artery ligation. These findings suggest that BK might have cardioprotective effect to increase the survival time in rats by activating BK2 receptors after coronary artery ligation.
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PMID:The effect of bradykinin and its antagonist on survival time after coronary artery occlusion in hypertensive rats. 1060 30

Angiotensin-converting enzyme inhibitors (ACEIs) cause regression of hypertensive left ventricular hypertrophy (LVH) by reducing angiotensin II, increasing bradykinin, or both. The mechanisms of these cardioprotective effects remain controversial. The aims of this study were to determine whether the cardioprotective effects of ACEIs are mediated by reducing angiotensin II and whether ACEIs ameliorate the morphologic, physiologic, and biochemical changes in the hearts of stroke-prone spontaneously hypertensive rats (SHRSPs). Male SHRSPs were treated with hydralazine, captopril, or candesartan, an angiotensin II type 1 receptor (AT1R) antagonist, from age 12 to 24 weeks. We measured systolic blood pressure (SBP), left ventricular weight (LVW), left ventricular (LV) myocyte cross-sectional area (myocyte size), LV Interstitial collagen volume fraction (ICVF), perivascular collagen area/luminal area ratio (PVCA/LA), the medial area to luminal area ratio (MA/LA), the relative amount of V3 myosin heavy chain (MHCV3), and coronary reserve maximum (coronary flow max/ventricular weight (CFmax/VW)). These parameters were compared with those of untreated SHRSPs and Wistar-Kyoto rats (WKYs). SHRSPs exhibited decreased coronary reserve and LVH with an increase in myocyte size, PVCA/LA, MA/LA, and MHCV3 at 12 weeks of age. In addition to these changes, 24-week-old SHRSPs showed an increase in ICVF. The LVW, coronary reserve, myocyte size, PVCA/LA, ICVF, and MHCV3 of SHRSPs treated with captopril or candesartan all approached control values. In contrast, hydralazine decreased only ICVF. These results suggest that ACEIs regress LVH and normalize coronary reserve by modulating the effects of angiotensin II via AT1R on the induction of cardiomyocyte hypertrophy, perivascular fibrosis, and medial thickening of intramyocardial coronary arteries in SHRSPs. We concluded that these effects, in addition to the reduction of SBP, are important in causing the regression of LVH.
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PMID:Angiotensin II-induced cardiomyocyte hypertrophy and cardiac fibrosis in stroke-prone spontaneously hypertensive rats. 1077 52

1. The structure of the basilar artery and the relationship of structure to blood pressure and ventricular hypertrophy was examined in genetically hypertensive (GH) rats, their control normotensive (N) Wistar strain, GH given the nitric oxide synthase (NOS) inhibitor, N(G)-nitro-L-arginine methyl ester (L-NAME) and GH given L-NAME and either valsartan or enalapril. 2. Systolic blood pressure (SBP; tail-cuff) was measured weekly from age 7-12 weeks. At the end of the experiment at 12 weeks, the basilar artery was fixed by perfusion and embedded in Technovit (Heraeus Kulzer GmbH, Werheim, Germany). Serial sections were cut and stained and stereological analysis applied to quantify the morphology of the vessels. Left ventricular (LV) mass was determined. 3. Both SBP and LV mass were significantly increased in GH compared with N (P < 0.001) and increased further in GH given L-NAME (P < 0.05). The GH L-NAME + valsartan and GH L-NAME + enalapril groups had significantly lower (P < 0.001) SBP and LV mass than the GH L-NAME group. 4. Basilar arteries in GH (which are frankly hypertensive, but have no apparent endothelial defect) showed hypotrophic inward remodelling compared with the N control group with no change in media to lumen ratio. 5. In the GH L-NAME group, further inward remodelling occurred and the media to lumen ratio was increased compared with N (P < 0.01) and GH (P < 0.05). Valsartan treatment in GH L-NAME rats caused eutrophic outward remodelling. Enalapril caused hypertrophic outward remodelling, suggesting that the angiotensin II-stimulated growth was not entirely suppressed with an angiotensin-converting enzyme inhibitor or that there was a bradykinin effect with enalapril. 6. In GH with an endothelial defect induced by treatment with L-NAME, the further remodelling, together with an increased media to lumen ratio and the development of a stroke-like syndrome, indicates the NOS-inhibited GH rat may be a useful model for essential hypertension (where it is known that endothelial abnormalities exist) and where stroke can develop as a consequence of the hypertension.
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PMID:Basilar artery remodelling in the genetically hypertensive rat: effects of nitric oxide synthase inhibition and treatment with valsartan and enalapril. 1090 98

The cardiovascular actions of python bradykinin (BK) and substance P (SP) have been investigated in the anesthetized ball python, Python regius. Bolus intra-arterial injections of python BK (0.03-3 nmol/kg) produced concentration-dependent increases in arterial blood pressure, heart rate (HR), and cardiac output concomitant with small decreases in systemic resistance and stroke volume. Intra-arterial injection of 3 nmol/kg python BK produced a tenfold increase in circulating concentration of norepinephrine, but epinephrine levels did not change. BK-induced tachycardia was attenuated (>90%) by the beta-adrenergic receptor antagonist sotalol, and the hypertensive response was attenuated (>70%) by the alpha-adrenergic receptor antagonist prazosin, indicating that effects of python BK are mediated at least in part by activation of the extensive network of adrenergic neurons present in vascular tissues. Bolus intra-arterial injections of python SP in the range 0. 01-30 pmol/kg produced concentration-dependent decreases in arterial blood pressure and systemic peripheral resistance concomitant with increases in cardiac output and stroke volume but with only minor effects on HR. The data suggest that kinins play a physiologically important role in cardiovascular regulation in the python.
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PMID:Cardiovascular actions of python bradykinin and substance P in the anesthetized python, Python regius. 1093 42

Alterations in the function and structure of the blood vessel wall account for most clinical events in the coronary and cerebrovascular circulation such as myocardial infarction and stroke. Cardiovascular drugs may exert beneficial effects on the vascular wall both at the level of the endothelium and vascular smooth muscle cells. Therefore, endothelial mediators, in particular nitric oxide (NO) and endothelin (ET), are of special interest. Drugs can modulate the expression and actions of NO, a vasodilator with antiproliferative and antithrombotic properties, and of ET, a potent vasoconstrictor and proliferative mitogenic agent. The most successful drugs in this context are statins and angiotensin-converting enzyme (ACE)-inhibitors. While statins increase the expression of NO synthase. ACE-inhibitors increase the release of NO via bradykinin-mediated mechanisms. Antioxidant properties of drugs are also important, as oxidative stress is crucial in atherosclerotic vascular disease. These properties may explain part of the effects of calcium antagonists and ACE-inhibitors. Indeed, angiotensin II stimulates NAD(P)H oxidases responsible for the formation of superoxide, which inactivates NO. ACE-Inhibitors thus increase the bioavailability of NO. Newer cardiovascular drugs such as nebivolol are able to directly stimulate NO release from the endothelium both in isolated arteries and in the human forearm circulation. ET receptor antagonists may exert beneficial effects in the vessel wall by preventing the effects of ET at its receptors and by reducing ET production. In summary, cardiovascular drugs have important effects on the vessel wall, which may be clinically relevant for the prevention and treatment of cardiovascular disease.
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PMID:Vascular effects of newer cardiovascular drugs: focus on nebivolol and ACE-inhibitors. 1181 90

A direct, continuous, and independent relation between blood pressure and the incidence of various cardiovascular events, such as stroke and myocardial infarction, is now well accepted. The increase in risk can be attributed to structural and functional changes in target organs. Central to many of these pathophysiologic processes is the renin-angiotensin system (RAS), specifically, angiotensin II. Binding of angiotensin II to angiotensin II type-1 (AT(1)) receptors produces acute vasoconstriction, leading to an increase in blood pressure. AT(1) receptor activation also contributes independently to chronic disease pathology by promoting vascular growth and proliferation, and endothelial dysfunction. These negative consequences of angiotensin II are partly counteracted by angiotensin II type-2 (AT(2)) receptor stimulation, which has favorable effects on tissue growth and repair processes. Thus, the use of selective AT(1) receptor antagonists in the treatment of hypertension has a 2-fold rationale: (1) selective AT(1) receptor blockade targets the final common pathway for all major detrimental cardiovascular actions of angiotensin II, and (2) circulating angiotensin II levels (which increase during AT(1) receptor antagonist treatment) will be free to act only at unopposed AT(2) receptors, potentially providing additional end-organ protection. Angiotensin-converting enzyme (ACE) inhibitors interrupt the RAS by preventing the conversion of angiotensin I to angiotensin II. They also increase plasma levels of bradykinin, which possesses vasodilatory and tissue-protective properties. The combination of an AT(1) receptor antagonist with an ACE inhibitor represents an appealing therapeutic strategy, because it should produce more complete blockade of the RAS, while preserving the beneficial effects mediated by AT(2) receptor stimulation and increased bradykinin levels.
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PMID:The role of the renin-angiotensin system in the development of cardiovascular disease. 1183 3

Activation of the RAAS has been linked with an increased risk of myocardial infarction and stroke,(1,2,37,38) and recently these beneficial effects have, in part, been attributed to the effects of the RAAS on the fibrinolytic system. Indeed, ACE seems to occupy a central position in modulating the fibrinolytic balance, where an angiotensin II-mediated increase of PAI-1 plays a major role. By contrast, the effect on bradykinin stimulated t-PA release may be of lesser importance, although the data are conflicting. Importantly, the impact of the RAAS on the fibrinolytic balance may also contribute to the favourable effects of ACE inhibition and AT1-receptor antagonists on cardiovascular events, particularly when considering the activation of the RAAS in hypertension and heart failure. More work is clearly required in this area to elucidate potential therapeutic targets.
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PMID:The renin-angiotensin-aldosterone system and fibrinolysis. 1188 Oct 31

Although the incidence of strokes is not maximal during sleeping hours, several lines of evidence make it probable that sleep in combination with breathing disorders like snoring and obstructive apneas are risk factors for ischemic strokes: the natural history of snoring and obstructive sleep apnea shows a higher incidence of strokes than in undisturbed sleep, the prevalence of snoring and sleep apneas in stroke patients is by far higher than in non-stroke patients; odds-ratios of stroke are higher in snorers and apneic patients than in normals, although the correction for confounders seems never perfect. The analysis of potential pathomechanisms linking sleep disordered breathing to strokes is another approach to the main topic: snoring and sleep apnea induce hypertension and arrhythmia, the carotid intima-media-thickness is increased, carotid atheromas are more common among apneics than among normals, the flow in the A. cerebri media is as well altered as the reaction to angiotensine II, noradrensine, isoproterenol and bradykinin. Homocysteine is increased, plasminogen activator inhibitor type 1 is inhibited and platelets are activated leading to an increased risk of thrombosis. There are no studies showing the effectiveness of treatment with nasal continuous positive airway pressure (nCPAP) on the rehabilitation of apneic stroke patients, but the outcome of non-apneic stroke patients is better than that of apneic stroke patients.
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PMID:Sleep and stroke. 1192 38


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