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)

Combined neutral endopeptidase (NEP) and angiotensin-converting enzyme (ACE) inhibition produces greater acute hemodynamic effects than either treatment alone. We investigated whether BMS-182657 (BMS), which bears inhibitory activities against both NEP and ACE, elicited similar enhanced effects. BMS inhibited NEP and ACE, in vitro (IC50 = 6 and 12 nM, respectively) and the pressor response to Ang I in rats. In deoxycorticosterone acetate (DOCA)-salt hypertensive rats sensitive to NEP inhibition but not to ACE inhibition, BMS at 100 mumol/kg i.v. lowered mean arterial pressure (MAP) from 180 +/- 6 to 151 +/- 5 mm Hg. In sodium-depleted, spontaneously hypertensive rats (SHR) sensitive to ACE inhibition but not to NEP inhibition, BMS at 100 mumol/kg p.o. lowered MAP from 151 +/- 4 to 123 +/- 5 mm Hg. Cardiomyopathic hamsters with heart failure were administered vehicle or one of the following (30 mumol/kg i.v.): the ACE inhibitor enalaprilat; the NEP inhibitor SQ-28603; or BMS. Enalaprilat and SQ-28603 had minimal hemodynamic effects. BMS decreased left ventricular end-diastolic pressure by 12 +/- 2 and 10 +/- 1 mm Hg and left ventricular systolic pressure by 27 +/- 2 and 23 +/- 3 mm Hg at 30 and 60 min, respectively (P < .05 vs. each other group). These changes were associated with a 40% increase in cardiac output, a 47% decrease in peripheral vascular resistance and a lowering of MAP by 21 +/- 3 mm Hg at 60 min (P < .05 vs. each other group). There were no significant differences in the changes in heart rate or left ventricular stroke work index among the four groups. Hence, BMS-182657 is a dual inhibitor of NEP and ACE, is antihypertensive irrespective of the activity of the renin-angiotensin system and has acute hemodynamic effects in hamsters with heart failure greater than those produced by selective inhibition of NEP or ACE. The NEP and ACE inhibitory activities of BMS-182657 act synergistically and mimic the interaction resulting from combining selective inhibitors of these enzymes.
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PMID:Cardiovascular effects of the novel dual inhibitor of neutral endopeptidase and angiotensin-converting enzyme BMS-182657 in experimental hypertension and heart failure. 747 62

The systemic hemodynamic, renal and hormonal responses to SQ 28,603 (N-[2-(mercaptomethyl)-1-oxo-3-phenylpropyl]-beta-alanine) the selective inhibitor of neutral endopeptidase 3.4.24.11, the angiotensin-converting enzyme inhibitor captopril and their combination were determined in conscious dogs after 1 or 3 weeks of rapid ventricular pacing. Coadministration of captopril (100 or 10 mumol/kg i.v.) and SQ 28,603 (10 mumol/kg i.v.) significantly reduced mean arterial pressure, systemic vascular resistance and renal vascular resistance and increased cardiac output, stroke volume and renal blood flow in the conscious dogs paced for 1 week. This pattern of hemodynamic improvement was not predicted by the activity of the individual inhibitors. The combination of inhibitors did not significantly increase sodium excretion because of the variability introduced by the depressor activity; however, the pressure-natriuresis curve was steeper and shifted leftward, indicating that sodium excretion was maintained at lower renal perfusion pressures. The increases in urinary and plasma levels of cyclic GMP and atrial natriuretic peptide stimulated by SQ 28,603 were not affected by captopril. The data indicated that the hemodynamic and renal responses produced by SQ 28,603, presumably by elevating atrial natriuretic peptide levels, were enhanced by suppression of angiotensin II or that the combination of inhibitors protected other vasodilator/natriuretic peptides from degradation. Qualitatively similar responses to SQ 28,603, captopril and the combination of inhibitors were obtained in dogs paced for 3 weeks. In summary, the combined angiotensin-converting enzyme and neutral endopeptidase 3.4.24.11 inhibitors improved systemic hemodynamics and maintained renal function in conscious dogs with pacing-induced heart failure.
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PMID:Systemic hemodynamics, renal function and hormonal levels during inhibition of neutral endopeptidase 3.4.24.11 and angiotensin-converting enzyme in conscious dogs with pacing-induced heart failure. 839 22

The antihypertensive agent omapatrilat represents a novel approach to antihypertensive therapy, namely vasopeptidase inhibition. Omapatrilat (BMS-186716) concomitantly inhibits neutral endopeptidase and angiotensin-converting enzyme, leading to protection from degradation of natriuretic and other hypotensive peptides in addition to interruption of the renin-angiotensin system. Although the potency of omapatrilat on reduction of blood pressure has been reported, its effects on resistance artery structure and function were unknown. We tested omapatrilat in stroke-prone spontaneously hypertensive rats (SHRSP), a malignant model of hypertension, with the hypothesis that it would improve the structure and endothelial function of mesenteric resistance arteries. Ten-week-old SHRSP were treated orally for 10 weeks with omapatrilat (40 mg/kg per day). Mesenteric arteries (lumen <300 microm) were studied on a pressurized myograph. After 10 weeks, untreated SHRSP had a systolic blood pressure of 230+/-2 mm Hg that was significantly reduced (P<0.05) by omapatrilat (145+/-3 mm Hg). Omapatrilat treatment improved endothelium-dependent relaxation of resistance arteries as elicited by acetylcholine (10(-5) mol/L) but had no significant effect on endothelium-independent relaxation produced by a nitric oxide donor (sodium nitroprusside). This suggested that there existed endothelial dysfunction in SHRSP that was corrected by vasopeptidase inhibition, probably in part caused by the potent blood pressure-lowering effect of omapatrilat. Media width and media/lumen ratio were significantly decreased (P<0.05) by omapatrilat, and a trend (P=0.07) to increase lumen diameter was observed. Vascular stiffness (slope of the elastic modulus versus stress curve) was unaltered by omapatrilat. In conclusion, omapatrilat, acting as a potent antihypertensive agent, may improve structure and endothelial function of resistance arteries in SHRSP, a severe form of genetic hypertension.
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PMID:Vasopeptidase inhibition has potent effects on blood pressure and resistance arteries in stroke-prone spontaneously hypertensive rats. 1085 67

Omapatrilat, a novel vasopeptidase inhibitor, is a highly potent and selective inhibitor of neutral endopeptidase and angiotensin-converting enzyme; its therapeutic potential is being investigated for treatment of hypertension and heart failure. In the present study, the safety, tolerability, and hemodynamic effects of single oral doses of omapatrilat (1 to 50 mg) are compared with placebo in patients with heart failure. Patients with heart failure (New York Heart Association functional class II to IV) and a resting left ventricular ejection fraction < or = 40% were enrolled in a double-blind, placebo-controlled, sequential-panel study of single doses of omapatrilat of 1, 2.5, 5, 10, 25, or 50 mg, followed by hemodynamic assessment for 24 hours. At 4 to 6 hours after dosing, the 25- and 50-mg doses of omapatrilat, compared with placebo, reduced mean pulmonary capillary wedge pressure by approximately 6 mm Hg from 20 and 23 mm Hg at baseline to 14 and 16 mm Hg. The 50-mg omapatrilat dose maintained this effect compared with placebo with an approximately 2.5-mm Hg reduction in mean pulmonary capillary wedge pressure at 24 hours. Omapatrilat improved additional hemodynamic parameters, including cardiac index, systemic vascular resistance, stroke volume index, and mean arterial pressure. Additionally, by 2 hours after dosing with omapatrilat 25 and 50 mg, a trend in peak increases from baseline in plasma atrial natriuretic peptide (twofold) and cyclic guanosine monophosphate (nearly twofold) was observed. Moreover, omapatrilat was well tolerated. Thus, omapatrilat administered orally to patients with heart failure was safe and well tolerated and resulted in improved hemodynamic performance.
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PMID:Effects of omapatrilat on hemodynamics and safety in patients with heart failure. 1156 90

Left ventricular remodeling in hypertension is associated with cardiac interstitial and perivascular collagen deposition. The dual angiotensin I converting enzyme/neutral endopeptidase inhibitor omapatrilat (also called vasopeptidase inhibitor) improves left ventricular remodeling in experimental heart failure. We hypothesized that omapatrilat would induce regression of cardiac and vascular fibrosis in hypertension. We, therefore, investigated the effect of omapatrilat on collagen deposition in heart and aorta of stroke-prone spontaneously hypertensive rats (SHRSP). Twenty-week-old normotensive Wistar-Kyoto (WKY) rats, untreated SHRSP, and SHRSP treated with omapatrilat (40 mg/kg per day, orally) for 10 weeks were investigated. Collagen in the heart and the descending thoracic aorta was stained with Sirius red. After 10 weeks, systolic blood pressure (BP) was significantly (P < .01) reduced in omapatrilat-treated versus untreated SHRSP. Interstitial collagen density was significantly decreased in the subendocardial myocardium (to 2.71 +/- 0.24% v 4.12 +/- 0.30%, respectively, P < .05) and in the midmyocardium of omapatrilat-treated versus untreated SHRSP (to 3.01 +/- 0.25 v 4.19 +/- 0.17% respectively, P < .05). Perivascular collagen was significantly (P < .05) decreased in the subepicardial, mid-myocardial and, subendocardial regions of the myocardium of omapatrilat-treated versus untreated SHRSP. Aortic collagen content decreased in omapatrilat-treated versus untreated SHRSP (to 36.1 +/- 2.8 v 58.8 +/- 6.1 x 10(3) microm2/mm section, respectively, P < .05). In conclusion, in addition to being a potent antihypertensive agent, omapatrilat significantly improves cardiac and vascular fibrosis in SHRSP.
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PMID:Effect of ACE/NEP inhibition on cardiac and vascular collagen in stroke-prone spontaneously hypertensive rats. 1171 Jul 87

Heart failure is characterized by sodium and fluid retention, sympathetic overactivity, parasympathetic withdrawal, vasoconstrictor activation and cytokine elevation. New therapies for heart failure attempt to control neurohormonal activation and limit progressive left ventricular dysfunction. Nesiritide (human B-type natriuretic peptide) is a recently approved new vasodilator that has been given to almost 1,000 patients in numerous clinical investigations; it belongs to a new class of heart failure drugs known as natriuretic peptides. Nesiritide decreases pulmonary capillary wedge pressure, systemic vascular resistance, mean right atrial pressure and pulmonary artery pressure, while improving cardiac index, stroke volume and heart failure symptoms. Many endothelin receptor antagonists are in various stages of development. Early clinical studies have demonstrated beneficial cardiovascular hemodynamic effects. Other new drugs for heart failure also include calcium sensitizers, neutral endopeptidase and vasopeptidase inhibitors, aldosterone receptor antagonists, vasopressin antagonists and cytokine inhibitors. All are being actively investigated and many show significant promise as beneficial therapies in the treatment of heart failure.
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PMID:New therapies for the treatment of congestive heart failure. 1253 83

Heart failure is characterized by sodium and fluid retention, sympathetic overactivation, parasympathetic withdrawal, vasoconstrictor activation and cytokine elevation. New therapies for heart failure attempt to control neurohormonal activation and limit progressive left ventricular dysfunction. Nesiritide (human B-type natriuretic peptide) is a recently approved new vasodilator that has been given to almost 1000 patients in numerous clinical investigations, it belongs to a new class of heart failure drugs known as natriuretic peptides. Nesiritide decreases pulmonary capillary wedge pressure, systemic vascular resistance, mean right atrial pressure and pulmonary artery pressure, while improving cardiac index, stroke volume and heart failure symptoms. Many endothelin receptor antagonists are in various stages of development. Early clinical studies have demonstrated beneficial cardiovascular hemodynamic effects. Other new drugs for heart failure also include calcium sensitizers, neutral endopeptidase and vasopeptidase inhibitors, aldosteron receptor antagonists, vasopressin antagonists and cytokine inhibitors. All are being actively investigated and many show significant promise as beneficial therapies in the treatment of heart failure.
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PMID:[New medical therapies for the treatment of systolic heart failure]. 1465 17

Alzheimer's disease (AD) is linked to certain common brain pathologies (e.g., ischemia, stroke, and trauma) believed to facilitate its development and progression. One of the logical approaches to this problem is to study the effects of ischemia and hypoxia on the metabolism of amyloid precursor protein, which plays one of the key roles in the pathogenesis of AD. This involves an analysis of (1) proteases, which participate in proteolysis of amyloid precursor protein either by the nonamyloidogenic route (alpha-secretase) or the amyloidogenic pathway and lead to formation of toxic beta-amyloid peptides (beta- and gamma-secretases) and (2) several metallopeptidases that might play a role in degradation of beta-amyloid peptide (Abeta). The study of the effects of prenatal hypoxia and acute hypoxia in adult animals allowed us to conclude that oxygen deprivation results not only in an increase of amyloid precursor protein expression in the brain but also in a decrease in the activity of alpha-secretase. In some brain structures involved in AD pathology (the cortex and striatum), we also observed a decrease in the expression of two of the Abeta degrading enzymes, neprilysin and endothelin-converting enzyme, after hypoxia. A decrease in expression of these metalloproteases was also observed in the model of four-vessel occlusion ischemia in rats with their restoration to the control levels after reperfusion. Preconditioning to mild hypoxia both in the prenatal period and in adults appeared to have a neuroprotective effect restoring, in particular, the levels of amyloid precursor protein, activity of alpha-secretase, and expression of neprilysin and endothelin-converting enzyme to their control values.
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PMID:Effect of hypoxia/ischemia and hypoxic preconditioning/reperfusion on expression of some amyloid-degrading enzymes. 1568 98

Pathogenesis of Alzheimer's disease (AD), which is characterised by accumulation of extracellular deposits of beta-amyloid peptide (Abeta) in the brain, has recently been linked to vascular disorders such as ischemia and stroke. Abeta is constantly produced in the brain from amyloid precursor protein (APP) through its cleavage by beta- and gamma-secretases and certain Abeta species are toxic for neurones. The brain has an endogenous mechanism of Abeta removal via proteolytic degradation and the zinc metalloproteinase neprilysin (NEP) is a critical regulator of Abeta concentration. Down-regulation of NEP could predispose to AD. By comparing the effects of hypoxia and oxidative stress on expression and activity of the Abeta-degrading enzyme NEP in human neuroblastoma NB7 cells and rat primary cortical neurones we have demonstrated that hypoxia reduced NEP expression at the protein and mRNA levels as well as its activity. On contrary in astrocytes hypoxia increased NEP mRNA expression.
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PMID:Effects of hypoxia and oxidative stress on expression of neprilysin in human neuroblastoma cells and rat cortical neurones and astrocytes. 1748 46

Reactive oxygen species (ROS) are continuously generated during aerobic metabolism. Certain levels of ROS, which could be dependent on the type of cell, cell age, history of ROS exposure, etc., could facilitate specific cell functions. Indeed, ROS stimulate a number of stress responses and activate gene expression for a wide range of proteins. It is well known that increased levels of ROS are involved in the aging process and the pathogenesis of a number of neurodegenerative diseases. Because of the enhanced sensitivity of the central nervous system to ROS, it is especially important to maintain the normal redox state in different types of neuro cells. In the last decade it became clear that regular exercise beneficially affects brain function as well, and can play an important preventive and therapeutic role in stroke and in Alzheimer's and Parkinson's diseases. The effects of exercise appear to be very complex and could include neurogenesis via neurotrophic factors, increased capillarization, decreased oxidative damage, and increased proteolytic degradation by proteasome and neprilysin. Data from our and other laboratories indicate that exercise-induced modulation of ROS levels plays a role in the protein content and expression of brain-derived neurotrophic factor, tyrosine recepetor kinase B, and cAMP response element binding protein, resulting in better function and increased neurogenesis. The enhanced activities of proteasome and neprilysin result in decreased accumulation of carbonyls and amyloid beta-proteins, as well as improved memory. It appears that exercise-induced modulation of the redox state is an important means by which exercise benefits brain function, increases the resistance against oxidative stress, and facilitates recovery from oxidative stress.
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PMID:Effects of exercise on brain function: role of free radicals. 1805 20


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