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)

Essential hypertension is characterized by significant and persistent elevations in arterial pressure. Hypertension is a multifactorial disorder that may involve abnormalities in the functions of the heart pump, the blood vessels, and the kidneys. Short-term and long-term regulation of arterial pressure is influenced by changes in cardiac function, the peripheral vascular resistance, and the renal control mechanisms of plasma electrolytes and volume. Increases in the heart rate and stroke volume lead to increases in the cardiac output and could contribute to increases in arterial pressure particularly in relatively young individuals. Vascular endothelial cell dysfunction could lead to reduction in endothelium-derived relaxing factors such as nitric oxide, prostacyclin, and endothelium-derived hyperpolarizing factor, or increased production of contracting factors such as endothelin-1 and thromboxane A2. Also, increased activity of signaling pathways of vascular smooth muscle contraction such as [Ca(2+)]i, protein kinase C, mitogen-activated protein kinase, and Rho kinase could enhance vasoconstriction. The decreased vascular relaxation and excessive vasoconstriction lead to significant increases in the peripheral vascular resistance and arterial pressure over time, particularly with aging. Alterations in body fluid regulation by the kidneys could lead to salt and water retention, increased plasma volume, and cardiac output. Also, activation of the renin-angiotensin system increases the levels of angiotensin II in the plasma, leading to generalized vasoconstriction, or locally in the kidneys, leading to salt and water retention. Individual changes in cardiac, vascular, or renal function seldom occur separately, and, if so, they may lead to mild or moderate increases in arterial pressure. Combined alterations in cardiac, vascular, and renal functions are more common and are often associated with pathologic increases in arterial pressure and established hypertension.
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PMID:Pathophysiology of essential hypertension: role of the pump, the vessel, and the kidney. 1178 64

This study hypothesizes that endothelin-1 induces renal damage by increasing expression of growth/inflammatory factors, important in renal fibrosis. Male stroke-prone spontaneously hypertensive rats (SHRSPs) (8-weeks, n = 24) were randomized into three groups: control group, high-salt group (4% NaCl), and salt plus an endothelin A receptor antagonist, BMS 182874 (40 mg/kg/d). After 20 weeks treatment, rats were killed. Messenger RNA (mRNA) expression of renal preproendothelin-1, endothelin A and B receptors, and procollagen I and III was evaluated by reverse transcription polymerase chain reaction. Expression of transforming growth factor (TGF)-beta1 and basic fibroblast growth factor (bFGF) was determined by immunoblotting. Matrix metalloproteinase-2 (MMP-2) activity was measured by zymography. In salt-loaded SHRSPs, preproendothelin-1 mRNA expression was increased 1.6-fold, and endothelin A receptor mRNA expression was decreased (70% of control). Salt-loaded SHRSPs had increased renal expression of TGF-b1 and procollagens. MMP-2 activity was augmented fivefold. BMS decreased (p < 0.01) expression of TGF-beta1, bFGF, and procollagen I and reduced MMP-2 activity. Thus severe hypertension and renal dysfunction in salt-loaded SHRSPs are associated with increased expression of renal endothelin-1, growth factors, and collagen. BMS treatment alleviated these effects, suggesting that nephroprotection by endothelin A receptor blockade is mediated by normalizing expression of growth factors, reducing extracellular matrix deposition, and decreasing MMP activity.
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PMID:Endothelin A receptor blockade decreases expression of growth factors and collagen and improves matrix metalloproteinase-2 activity in kidneys from stroke-prone spontaneously hypertensive rats. 1202 84

Nesiritide, a recombinant human B-type natriuretic peptide, is the first in a new drug class for the treatment of decompensated heart failure. The drug binds to receptors in the vasculature, kidney, adrenal gland, and brain, and overcomes resistance to endogenous BNP present in patients with CHF. Nesiritide administration leads to a rapid and balanced vasodilatory effect, which results in a significant decrease in right and left ventricular filling pressures and systemic vascular resistance and at the same time in an increase in stroke volume and cardiac output without a change in heart rate. These early hemodynamic changes result in a rapid improvement in symptoms of heart failure. In addition, nesiritide lowers aldosterone, catecholamines, and endothelin-1 levels and its effect on the kidney leads to an increased natriuresis and diuresis without effect on serum potassium or renal function. Prior to its approval for clinical use, nesiritide was studied in 10 different clinical trials involving 941 patients with moderate and severe CHF, including elderly patients, patients with both systolic and diastolic dysfunction, and patients with arrhythmias, renal insufficiency, and acute ischemic syndrome. In comparative studies with available vasoactive therapies frequently used for treatment of patients with decompensated heart failure, nesiritide was proven comparable in efficacy to inotropic drugs such as dobutamine, but superior in safety. In a recent study, nesiritide was found to be more effective and better tolerated than the vasodilator, nitroglycerin. The most common side effects expected with the use of nesiritide are headaches and decrease in blood pressure. At the recommended dose of nesiritide, headache was reported during the first 24 hours of treatment in 8% of patients and symptomatic hypotension in 4% of patients, compared to 20% and 5% in nitroglycerin-treated patients.
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PMID:Nesiritide: a new drug for the treatment of decompensated heart failure. 1223 67

IGF-I has been suggested to be of importance for cardiovascular structure and function, but the relative role of locally produced and liver-derived endocrine IGF-I remains unclear. Using the Cre-LoxP recombination system, we have previously created transgenic mice with a liver-specific, inducible IGF-I knockout (LI-IGF-I-/-). To examine the role of liver-derived IGF-I in cardiovascular physiology, liver-derived IGF-I was inactivated at 4 wk of age, resulting in a 79% reduction of serum IGF-I levels. At 4 months of age, systolic blood pressure (BP) was increased in LI-IGF-I-/- mice. Echocardiography showed increased posterior wall thickness in combination with decreased stroke volume and cardiac output, whereas other systolic variables were unchanged, suggesting that these cardiac effects were secondary to increased peripheral resistance. Acute nitric oxide-synthase inhibition increased systolic BP more in LI-IGF-I-/- mice than in control mice. LI-IGF-I-/- mice showed impaired acetylcholine-induced vasorelaxation in mesenteric resistance vessels and increased levels of endothelin-1 mRNA in aorta. Thus, the increased peripheral resistance in LI-IGF-I-/- mice might be attributable to endothelial dysfunction associated with increased expression of endothelin-1 and impaired vasorelaxation of resistance vessels. In conclusion, our findings suggest that liver-derived IGF-I is involved in the regulation of BP in mice.
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PMID:Liver-derived insulin-like growth factor-I is involved in the regulation of blood pressure in mice. 1239 17

Abeta peptides are thought to be critical molecules in the pathophysiology of Alzheimer's disease (AD) and are the major protein constituents of senile plaques. In most AD cases, Abeta peptides also form some deposits in the cerebrovasculature, leading to cerebral amyloid angiopathy and hemorrhagic stroke. Regional cerebral hypoperfusion is one of the earlier clinical manifestations in both the sporadic and familial forms of AD. In addition, a variety of vascular risk factors of different etiologies (for instance, diabetes, hypertension, high cholesterol level, atherosclerosis, and smoking) constitute risk factors for AD as well, suggesting that functional vascular abnormalities may contribute to AD pathology. We studied the effect of Abeta on constrictor responses elicited by endothelin-1 in isolated human cerebral arteries collected following rapid autopsies. We report that freshly solubilized Abeta potentiates endothelin-1-induced vasoconstriction in isolated human middle cerebral and basilar arteries. The vasoconstriction elicited by Abeta in these large human cerebral arteries appears to be completely antagonized by NS-398, a selective cyclooxygenase-2 inhibitor, or by SB202190, a specific p38 mitogen-activated protein kinase inhibitor, suggesting that Abeta vasoactivity is mediated via the stimulation of a proinflammatory pathway. In addition, a similar proinflammatory response appears to be mediated by Abeta in isolated human brain microvessels, resulting in an increased production of prostaglandin E(2) and F(2alpha). Using a scanner laser Doppler imager, we show a progressive decline with aging in cortical perfusion level in transgenic APPsw mice (line 2576) compared with age-matched control littermates. The relation between the acute proinflammatory and vasoactive properties of Abeta and the chronic progressive hypoperfusion seen in AD (and transgenic models thereof) is yet to be elucidated.
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PMID:Proinflammatory and vasoactive effects of Abeta in the cerebrovasculature. 1248 Jul 34

Although cocaine-induced constriction of cerebral vessels may play an important negative role in the pathogenesis of cocaine-related stroke, the mechanism underlying the vasospasm remains unclear. This study investigated the role of endothelin-1 in mediating the spasm. Intracisternal cocaine infusion (10 microl/h via osmotic pump) into the cisterna magna of rabbits induced time- and concentration-dependent spasm. Maximal spasm was achieved with 100 microM cocaine infusate, and was observed as early as 0.5 days and reached a maximum at 2 days. Coinfusion of 100 microM cocaine with the endothelin receptor antagonist PD145065 (100 microM) prevented the spasm. Cerebral spinal fluid levels of cocaine and benzoylecgonine, a major cocaine metabolite, were below the limit of assay detection. This study demonstrates the novel finding that endothelin-1 mediates cocaine-induced cerebral vasospasm.
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PMID:Cocaine-induced endothelin-1-dependent spasm in rabbit basilar artery in vivo. 1254 74

Two mechanisms are proposed to account for the inhibition of myosin phosphatase (MP) involved in Ca2+ sensitization of vascular muscle, ie, phosphorylation of either MYPT1, a target subunit of MP or CPI-17, an inhibitory phosphoprotein. In cultured vascular aorta smooth muscle cells (VSMCs), stimulation with angiotensin II activated RhoA, and this was blocked by pretreatment with 8-bromo-cGMP. VSMCs stimulated by angiotensin II, endothelin-1, or U-46619 significantly increased the phosphorylation levels of both MYPT1 (at Thr696) and CPI-17 (at Thr38). The angiotensin II-induced phosphorylation of MYPT1 was completely blocked by 8-bromo-cGMP or Y-27632 (a Rho-kinase inhibitor), but not by GF109203X (a PKC inhibitor). In contrast, phosphorylation of CPI-17 was inhibited only by GF109203X. Y-27632 dramatically corrected the hypertension in N(omega)-nitro-L-arginine methyl ester (L-NAME)-treated rats, and this hypertension also was sensitive to isosorbide mononitrate. The level of the active form of RhoA was significantly higher in aortas from L-NAME-treated rats. Expression of RhoA, Rho-kinase, MYPT1, CPI-17, and myosin light chain kinase were not significantly different in aortas from L-NAME-treated and control rats. Activation of RhoA without changes in levels of other signaling molecules were observed in three other rat models of hypertension, ie, stroke-prone spontaneously hypertensive rats, renal hypertensive rats, and DOCA-salt rats. These results suggest that independent of the cause of hypertension, a common point in downstream signaling and a critical component of hypertension is activation of RhoA and subsequent activation of Rho-kinase.
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PMID:Activation of RhoA and inhibition of myosin phosphatase as important components in hypertension in vascular smooth muscle. 1260 Aug 88

Human BNP serves to compensate for deteriorating cardiac function causing preload and afterload reductions, natriuresis, diuresis, suppression of the renin-angiotensin-aldosterone system (RAAS) and endothelin-1, and lowering of norepinephrine. Based on its unique pharmacologic profile, nesiritide results in clinically significant balanced vasodilation of arteries and veins, and may be well suited for patients presenting with various scenarios of decompensated CHF usually due to volume overload (NYHA classes II-IV). More than 1000 subjects have participated in clinical trials with nesiritide and more than 55,000 patients have been treated with nesiritide since it was approved for use in August 2001. Unlike nitroglycerin, tachyphylaxis did not appear to occur with Natrecor. The complete efficacy profile of nesiritide included preload reduction (PCWP and RAP), reductions in pulmonary artery pressures, afterload reduction (systemic vascular resistance), and increases in cardiac index and stroke volume index (which are dose-dependent and not the result of a direct inotropic effect), without increasing heart rate. Unlike inotropes, the beneficial hemodynamic effects produced by nesiritide do not cause an increase in myocardial oxygen consumption (MVO(2)), an important consideration for patients with acutely decompensated heart failure. Because Nesiritide is not an inotrope, it does not affect myocardial contractility, as does a beta-adrenergic receptor agonist, or a phosphodiesterase III inhibitor. As a result, nesiritide is not arrhythmogenic. Nesiritide should be considered for patients presenting with acutely typical or useful decompensated heart failure, especially those with dyspnea at rest or with minimal activity.
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PMID:Nesiritide: a new therapy for the treatment of heart failure. 1266 89

1 Urotensin-II (U-II) is among the most potent mammalian vasoconstrictors identified and may play a role in the aetiology of essential hypertension. Currently, only one mouse U-II receptor (UT) gene has been cloned. It is postulated that this protein is solely responsible for mediating U-II-induced vasoconstriction. 2 This hypothesis has been investigated in the present study, which assessed basal haemodynamics and vascular reactivity to hU-II in wild-type (UT((+/+))) and UT receptor knockout (UT((-/-))) mice. 3 Basal left ventricular end-diastolic and end-systolic volumes/pressures, stroke volumes, mean arterial blood pressures, heart rates, cardiac outputs and ejection fractions in UT((+/+)) mice and in UT((-/-)) mice were similar. 4 Relative to UT((+/+)) mouse isolated thoracic aorta, where hU-II was a potent spasmogen (pEC(50)=8.26+/-0.08) that evoked relatively little vasoconstriction (17+/-2% 60 mM KCl), vessels isolated from UT((-/-)) mice did not respond to hU-II. However, in contrast, the superior mesenteric artery isolated from both the genotypes did not contract in the presence of hU-II. Reactivity to unrelated vasoconstrictors (phenylephrine, endothelin-1, KCl) and endothelium-dependent/independent vasodilator agents (carbachol, sodium nitroprusside) was similar in the aorta and superior mesenteric arteries isolated from both the genotypes. 5 The present study is the first to directly link hU-II-induced vasoconstriction with the UT receptor. Deletion of the UT receptor gene results in loss of hU-II contractile action with no 'nonspecific' alterations in vascular reactivity. However, as might be predicted based on the limited contractile efficacy recorded in vitro, the contribution that hU-II and its receptor make to basal systemic haemodynamics appears to be negligible in this species.
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PMID:Deletion of the UT receptor gene results in the selective loss of urotensin-II contractile activity in aortae isolated from UT receptor knockout mice. 1277 Sep 52

Changes in blood pressure and sympathetic nerve activity induced by local injection of endothelin-1 into the rostroventrolateral medulla were studied in narcotized stroke-prone spontaneously hypertensive rats (SHRSP) and normotensive WKY rats. Endothelin-1 produced similar biphasic response in both rat strains: a transient increase in blood pressure and sympathetic nerve activity followed by progressive hypotension and bradycardia. Pretreatment with ETB-receptor antagonist BQ788 inhibited sympathetic activation induced by endothelin-1, while pretreatment with the ETA-receptor antagonist N-acetyl-[D-Trp16]-endothelin-1 abolished the subsequent hypotension. The antihypotensive effect of ETA-receptor blockade was most effective in normotensive rats. Our findings suggest that cardiovascular disorders in SHRSP rats can be related to peculiarities in the rostroventrolateral medullar endothelin system.
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PMID:Effects of central endothelin-1 in normotensive and spontaneously hypertensive rats. 1280 90


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