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)

Endothelium-dependent relaxation of carotid arteries and changes in levels of cyclic (c)GMP between stroke-prone spontaneously hypertensive (SHRSP) and Wistar-Kyoto (WKY) rats have been compared. The concentration-response curve for acetylcholine (ACh)-induced relaxation was shifted to the right in carotid arteries from SHRSP. Relaxation responses produced by calcimycin (A 23187) and melittin, both endothelium-dependent agents, were depressed in carotid arteries from SHRSP. Relaxation responses produced by sodium nitroprusside and 8-Br-cGMP were similar to those in strips from WKY. ACh-induced production of cGMP was significantly decreased in carotid arteries from SHRSP when compared with the level for similarly treated strips from WKY. These results suggest that functional changes in endothelium, but not guanylate cyclase activity or cGMP sensitivity in the carotid arteries, may occur in hypertension. Thus, impaired endothelium-dependent relaxation in SHRSP may play an important role in hypertensive vascular diseases such as stroke.
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PMID:Impairment of endothelium-dependent relaxation and changes in levels of cyclic GMP in carotid arteries from stroke-prone spontaneously hypertensive rats. 198 99

In an animal preparation of congestive heart failure in the dog, during the development of cardiac failure due to rapid right ventricular pacing we observed significant decreases in cardiac output and arterial pressure and increases in pulmonary arterial and right atrial pressure. We also observed a related increase in right atrial pressure and increases in plasma levels of atrial natriuretic peptide (ANP) and cyclic guanosine monophosphate (c-GMP). Ultrastructure changes in the atrial myoendocrine cells indicated extreme stimulation of the secretory apparatus of ANP. The response of hemodynamic, renal, and hormonal variables was investigated after incremental infusions (0.01, 0.03, 0.1, 0.3, and 0.06 microgram/kg/min) of exogenous ANP. In healthy animals ANP significantly decreased mean arterial pressure, cardiac output, stroke volume, and right atrial pressure without changing heart rate or peripheral vascular resistance. As expected, we found a striking increase in urine flow and urinary excretion of sodium, chloride, magnesium and calcium and a smaller increase in potassium excretion. ANP suppressed renin secretion, and increased renal plasma flow, glomerular filtration rate, and filtration fraction. In dogs with heart failure ANP caused a small reduction in mean arterial pressure. No effect was seen on other hemodynamic variables or plasma renin concentration. The excretory effects on the kidneys were completely absent, and smaller increases in glomerular filtration rate and filtration fraction were observed. We found no difference between healthy dogs and animals with heart failure with respect to the secretion of c-GMP during ANP infusions in relation to the plasma levels of ANP. This suggests an intracellular defect that prevents the mediation of the hormonal signal into biological action in the presence of heart failure.
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PMID:Atrial natriuretic peptide in congestive heart failure in the dog: plasma levels, cyclic guanosine monophosphate, ultrastructure of atrial myoendocrine cells, and hemodynamic, hormonal, and renal effects. 296 88

The cardiac release and total body and renal clearances and the hemodynamic, renal and endocrine effects of increasing doses of atrial natriuretic peptide were investigated in 12 patients with severe chronic congestive heart failure. Immunoreactive arterial plasma levels of atrial natriuretic peptide were 10-fold higher than normal and there was no correlation between aortic atrial natriuretic peptide and cardiac filling pressures. The heart released atrial natriuretic peptide into the coronary sinus. The kidney, though a major clearance site, accounted for only 33% of the total body clearance. Administration of 0.3 micrograms/kg per min atrial natriuretic peptide produced significant changes in heart rate (95 +/- 4 to 85 +/- 4 beats/min) and mean arterial (92 +/- 8 to 77 +/- 9 mm Hg), right atrial (13 +/- 3 to 8 +/- 2 mm Hg) and mean pulmonary artery occluded (27 +/- 3 to 14 +/- 3 mm Hg) pressures. Atrial natriuretic peptide increased cardiac index (2.25 +/- 0.18 to 2.83 +/- 0.3 liters/min per m2) and stroke work index (21 +/- 1.5 to 29 +/- 3.4 g/m2), whereas systemic vascular resistance (1,424 +/- 139 to 1,033 +/- 97 dynes.s.cm(-5)) decreased. Infusion of 0.1 microgram/kg per min atrial natriuretic peptide increased urinary flow 128%, fractional excretion of sodium 133% and fractional excretion of potassium 35%. The filtration fraction increased from 29 +/- 2 to 31 +/- 4%. This represented a disproportionate rise in glomerular filtration rate over renal plasma flow. Plasma aldosterone and norepinephrine decreased whereas plasma renin activity remained unchanged. In association with these hemodynamic, excretory and endocrine changes, the urinary excretion of cyclic guanosine monophosphate doubled. Placebo had no effect. These results showed that, despite high circulating levels of atrial natriuretic peptide, administration of this hormone in heart failure is associated with potentially beneficial hemodynamic, renal and endocrine effects.
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PMID:Hemodynamic, renal and endocrine effects of atrial natriuretic peptide infusion in severe heart failure. 296 55

This paper is a synopsis on recent reports dealing with the pharmacological basis of molsidomine-induced circulatory effects. The therapy of coronary insufficiency by molsidomine is based on different pathophysiological and pharmacological mechanisms. The inactive compound molsidomine is metabolized--mainly in the liver--to form the vasoactive and antiaggregatory compound SIN-1 and SIN-1A. Due to the gradual conversion into the active compound, the peak effects are observed only after 15 min (intravenously) or 30 to 60 min (orally). The effects are long-lasting and can be observed up to four to six hours. The c-GMP mediated dilation of various vascular sites comprise mainly the venous system (both small and large veins), resulting in a significant preload reduction, a decrease in cardiac output, a decrease in heart size and circumferential wall stress, a decrease in myocardial oxygen consumption and a therapeutically important improvement of O2-delivery versus myocardial O2-consumption. This effect results in a significant improvement of myocardial ischemia (reducing frequency of anginal attacks, improvement of exercise tolerance and of exercise induced ST-depressions). In animal experiments molsidomine diminishes infarct size and suppresses reperfusion-induced ventricular fibrillation following ischemia. Molsidomine dilates, like nitroglycerin, the large coronary arteries. Therefore, in coronary heart disease, it may improve collateral flow in addition to beneficial effects on subendocardial perfusion resulting from the reduction of ventricular wall stress. In addition to direct dilating effects on collateral vessels an improvement in perfusion of asynergistically contracting ventricular sections has been observed. In contrast to nitroglycerin, effects on peripheral resistance appear only under extremely high dosages and reflex increases in heart rate are rarely observed. In general molsidomine-induced changes (increases) in heart rate, in stroke volume (decreases), and in cardiac output (decreases) are of small magnitude. Recently interesting findings on molsidomine-induced suppression of thrombocyte aggregation, of thromboxan-synthesis inhibition and of increased prostacyclin formation have been presented, which may be important in the improvement of myocardial (micro-) circulation under ischemic conditions.
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PMID:[Pharmacological basis of therapy with molsidomine]. 689 44

We investigated the effect of chronic angiotensin-covering enzyme (ACE) inhibitor treatment on functional and biochemical cardiac parameters in stroke-prone spontaneously hypertensive rats (SHRsp). Animals were treated prenatally and, subsequently, up to the age of 20 weeks with the ACE inhibitor perindopril (0.01 and 1 mg/kg per day). The contribution of endogenous bradykinin potentiation to the actions of the ACE inhibitor was assessed by co-treatment with the bradykinin B2-receptor antagonist, icatibant (500 micrograms/kg/day s.c.), from 6 to 20 weeks of age and by measurement of myocardial prostacyclin and cyclic guanosine monophosphate (GMP) concentrations. Chronic high-dose treatment with perindopril attenuated the development of hypertension and left ventricular hypertrophy while low-dose perindopril treatment had no effect on these parameters. However, low-dose perindopril improved cardiac function of isolated perfused hearts as demonstrated by an increasing left ventricular pressure and dp/dtmax without change in heart rate. Low-dose perindopril further reduced lactate concentrations and the enzymatic activities of lactate dehydrogenase and creatine kinase in the coronary venous effluent and increased tissue concentrations of glycogen, adenosine triphosphate, and creatine kinase in the myocardium. Concomitant chronic bradykinin receptor blockade abolished all ACE inhibitor-induced effects on cardiac function and metabolism. Cardiac prostacylin concentrations were 3-fold elevated in perindopril-treated animals when compared to vehicle-treated controls, while cardiac cyclic GMP concentrations remained unchanged. Our data demonstrate that chronic ACE inhibitor treatment can improve cardiac function and metabolism independently of the antihypertensive and antihypertrophic drug actions by potentiation of endogenous bradykinin.
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PMID:Chronic low-dose treatment with perindopril improves cardiac function in stroke-prone spontaneously hypertensive rats by potentiation of endogenous bradykinin. 748 88

Eleven resting patients with an implanted DDD pacemaker were studied. After 30 minutes of AV sequential pacing at a rate of 80 beats/min with three consecutive atrioventricular delays (AVDs; 100, 150, and 200 msec) peripheral venous blood was drawn for further analyses by specific radioimmunoassays of atrial natriuretic peptide (ANP) and the ANP second messenger, cyclic guanosine monophosphate (cGMP). Relative changes in left ventricular (LV) stroke volume following alterations of AVD were assessed by means of pulsed-Doppler echocardiography through measurement of LV outflow time-velocity integrals (TVI). The optimal AVD (oAVD) was defined in individual patients as that which was associated with the greatest TVI and with improvement over both other AVDs of more than 4%. The oAVD was found in nine patients. For these nine patients no significant differences in either plasma ANP or cGMP between various AVDs were observed. However, we found such differences with respect to values measured at oAVD; both ANP and cGMP levels were lowest at oAVD. Pooling together the data obtained in 11 patients at three AVDs, a positive correlation between ANP and cGMP levels was found (r = 0.7, P < 0.0001, n = 33). Moreover, changes of plasma ANP and cGMP induced by every AVD increment of 50 msec were also correlated (r = 0.6, P < 0.01, n = 22). It is concluded that in AV sequential pacing at rest plasma ANP reaches minimal levels at the AVD, which provides the best LV performance. Although levels of cGMP changed in parallel with those of ANP, low relative values of cGMP differences may limit the usefulness of cGMP assays in optimization of the AVD.
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PMID:Plasma ANP and cyclic GMP levels versus left ventricular performance at different AV delays in AV sequential pacing. 751 46

To test the hypothesis that neural mechanisms evoked by unilateral pulmonary artery occlusion (UPAO) affect the release of atrial natriuretic peptides (ANP) from the heart, hemodynamics and levels of plasma ANP and cyclic guanosine monophosphate (c-GMP) were studied in 11 patients with lung cancer. The UPAO induced a significant rise in heart rate by 5.3 percent, increased mean pulmonary artery pressure by 31 percent without affecting right atrial pressure, and decreased plasma ANP levels in the coronary sinus by 17.4 percent (p < 0.05) from 202.5 +/- 27.1 pg/ml to 167.2 +/- 27.4 pg/ml. Atropine sulfate (0.04 mg/kg) injection increased the heart rate by 38.2 percent (p < 0.01), reduced the stroke volume index by 25.1 percent, decreased coronary sinus ANP levels from 198.5 +/- 16.4 pg/ml to 124.8 +/- 19.6 pg/ml (p < 0.01), and decreased coronary sinus plasma c-GMP levels from 4.6 +/- 0.5 pmol/ml to 3.1 +/- 0.4 pmol/ml (p < 0.05). After atropine pretreatment, UPAO induced a significant (p < 0.05) increase of 34.8 percent in the coronary sinus ANP level. Thus, it is concluded that in UPAO, the secretion of ANP from the heart is modulated partly by the autonomic nervous system.
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PMID:Atrial natriuretic peptide response to unilateral pulmonary artery occlusion. 795 87

We examined the effects of a novel phosphodiesterase III inhibitor, olprinone, on the cardiohemodynamics and plasma hormones in conscious pigs with pacing-induced heart failure. After pacing for 5-10 days, cardiac output (CO) decreased from 2.25 +/- 0.17 to 1.67 +/- 0.13 L/min (n = 8, p < 0.01) and stroke volume (SV) decreased from 20.1 +/- 2.1 to 12.0 +/- 1.6 ml (n = 8, p < 0.01), whereas left arterial pressure (LAP) increased from 2.8 +/- 1.2 to 16.7 -/+ 0.9 mm Hg (n = 7, p < 0.001) and systemic vascular resistance (SVR) increased from 38.7 +/- 3.5 to 49.8 +/- 4.2 mm Hg/L/min (n = 8, p < 0.01). Sequential intravenous infusions of 0.03, 0.3, and 3.0 microg/kg/min of olprinone at 30-min intervals to eight pigs caused dose-dependent increases in the decreased CO, SV, and maximal rate of rise in left ventricular pressure (LV dP/dt(max)) and decreased the elevated LAP and SVR. Olprinone at 3.0 microg/kg/min maximally increased CO, SV, and LV dP/dt(max) by 40.0 +/- 10.8% (p < 0.05 vs. vehicle), 25.6 +/- 6.9% (p < 0.05), and 43.9 +/- 11.2% (p < 0.01), respectively, and brought about a slight increase in heart rate and decreases in LAP and SVR, by 35.9 +/- 7.3% (p < 0.001) and 27.9 +/- 4.8% (p < 0.01), respectively. Olprinone did not affect the rate-pressure product. In addition, olprinone produced significant decreases in the plasma levels of atrial natriuretic peptide and cyclic guanosine monophosphate, with no changes in the plasma levels of cyclic adenosine monophosphate and catecholamines or plasma renin activity. These findings indicate that the short-term intravenous infusions of olprinone ameliorated the decreased left ventricular function without affecting myocardial oxygen consumption or the sympathetic nervous system in conscious pigs with heart failure.
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PMID:Effects of a new cardiotonic phosphodiesterase III inhibitor, olprinone, on cardiohemodynamics and plasma hormones in conscious pigs with heart failure. 923 57

The arterial wall is structurally and functionally compartmentalized. Each compartment is characterized by a specific cell type and by specific interactions. The endothelial compartment interacts with circulating blood, and the adventitial compartment with the surrounding tissue. The media, which contains the effector smooth muscle cells, perceives centrifugal messages from the endothelium and centripetal messages from metabolically active tissues, from adventitial nerve endings, and from peptides produced in the interstitium. The degree of contraction or relaxation of the vascular smooth muscle cells characterizes the general vasomotor tone, which governs the local blood pressure level and distributes the flow according to metabolic needs. The main physiologic vasoactive agent is nitric oxide (NO) and is produced by the endothelium. In disease states, other agents can become predominant in centrifugal parietal messages. NO is produced by type 3 NO synthase, an enzyme that is constitutively expressed by endothelial cells. The activity of this enzyme on its substrate, arginine, is regulated by the concentration of free calcium and by intracellular phosphorylations. Several peptides, including receptors, are coupled to the phospholipase C pathway in the endothelial cell; endothelial growth factors such as FGF and VEGF, enhance the activity of endothelial NO synthase. However, the main physiologic factor responsible for endothelial NO synthase activation is the shearing stress produced by friction of the flowing blood against the immobile vessel wall. This shearing stress constantly adjusts the diameter of conductance vessels to peripheral metabolic needs. Expression of endothelial NO synthase is modulated by the chronic effects of the same agents. NO has a vasodilating effect that is mediated by the generation of cyclic GMP. Cyclic GMP and cyclic AMP are the main second messengers in smooth muscle cell relaxation. NO binds to a heme-protein, soluble guanylate cyclase, that converts GMP to cyclic GMP. Kinase-G is the main target for cyclic GMP in the smooth muscle cell. Kinase-G phosphorylates phospholambans and releases the repumping activity of calcium ATPase. More importantly, kinase-G phosphorylates the protein G that links seven-domain membrane-spanning receptors to phospholipases, thus inhibiting coupling between the ligand-receptors interaction and the intracellular signaling process that leads to contraction. NO can relax the smooth muscle cell only in the presence of a preexisting contractile tone. Conversely, absence of NO enhances the preexisting contractile tone. All these notions can be analyzed via the experimental model of L-NAME-induced chronic NO synthase blockade in rats. The decrease in parietal cyclic GMP seen in this model is associated with an increase in contractile tone that translates into systemic arterial hypertension. The increase in contractile tone can be blocked by renin-angiotensin system inhibitors. Chronic blockade of NO production rapidly induces vascular wall phenotype changes that lead to renal failure, ischemic stroke, and fibrosis of target organs. These phenotype changes may be related to the increase in the oxidative potential of the various types of parietal cells, as suggested by the abnormal presence of inflammatory cells and by the increased expression of inflammation mediators including cyclooxygenase II, inducible NO synthase, and adhesion molecules such as ICAM and VCAM. This model therefore holds promise for elucidating interactions between NO and arteriosclerosis. NO system dysfunction is also seen in other cardiovascular disorders, including congestive heart failure.
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PMID:[Role of endothelial nitric oxide in the regulation of the vasomotor system]. 976 14

Sildenafil, a selective inhibitor of phosphodiesterase type 5 (PDE5), is the first in a new class of orally effective treatments for erectile dysfunction. During sexual stimulation, the cavernous nerves release nitric oxide (NO), which induces cyclic guanosine monophosphate (cGMP) formation and smooth muscle relaxation in the corpus cavernosum. Sildenafil facilitates the erectile process during sexual stimulation by inhibiting PDE5 and thus blocking the breakdown of cGMP. Sildenafil alone can cause mean peak reductions in systolic/diastolic blood pressure of 10/7 mm Hg that are not dose related, whereas the heart rate is unchanged. Sildenafil and nitrates both increase cGMP levels in the systemic circulation but at different points along the NO-cGMP pathway. The combination is contraindicated because they synergistically potentiate vasodilation and may cause excessive reductions in blood pressure. Erectile dysfunction is a significant medical condition that shares numerous risk factors with ischemic heart disease, and hence a substantial overlap exists between these patient groups. From extensive clinical trials, the most commonly reported cardiovascular adverse events in patients treated with sildenafil were headache (16%), flushing (10%), and dizziness (2%). The incidences of hypotension, orthostatic hypotension, and syncope and the rate of discontinuation of treatment due to adverse events were <2% and were the same in patients taking sildenafil and those taking placebo. Retrospective analysis of the concomitant use of antihypertensive medications (beta blockers, alpha blockers, diuretics, angiotensin-converting enzyme inhibitors, and calcium antagonists) in patients taking sildenafil did not indicate an increase in the reports of adverse events or significant episodes of hypotension compared with patients treated with sildenafil alone. In clinical trials, the incidence of serious cardiovascular adverse events, including stroke and myocardial infarction, was the same for patients treated with sildenafil or placebo. Concurrent disease states, such as renal or hepatic impairment, or concomitant use of inhibitors of the cytochrome P450 isozyme CYP3A4 could increase systemic exposure to sildenafil. Since the US market launch in April 1998, monitoring of spontaneous adverse event reports in association with sildenafil has demonstrated a pattern that is generally consistent with the experience observed during clinical development, with the exception of infrequent reports of priapism. In conclusion, extensive clinical testing has shown that overall treatment with sildenafil for up to 1 year is well tolerated and is associated with a low incidence of adverse events that result in discontinuation of treatment in <3% of patients.
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PMID:Overall cardiovascular profile of sildenafil citrate. 1007 41


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