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:C0002962 (angina)
21,142 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

ATP-sensitive potassium (K(ATP)) channel openers, exerting a potent vasodilatory action, are useful in the treatment of cardiovascular disorders; e.g., hypertension and angina pectoris. This study was designed to evaluate the effect of MJ-355 (6-cyano-3,4-trans-3,4-dihydro-2,2-dimethyl-2H-3-hydroxy-4-[2-oxo-5S-(1- ethoxyethoxymethyl)-1-pyrrolidinyl]-1-benzopyran), a newly synthesized K(ATP) channel opener, on hemodynamics in spontaneously hypertensive rats and on myocardial ischemia-reperfusion injury in a rat model of 45 min left coronary artery occlusion followed by 1-h reperfusion. Intravascular injection of MJ-355 (0.005, 0.05 and 0.1 mg/kg) produced a dose-related reduction in mean arterial blood pressure. The depressor effect started 10-15 min after the administration and persisted for more than 3 h and was not accompanied by a reflex tachycardia. In myocardial ischemia, pretreatment of MJ-355 (0.02 mg/kg) significantly reduced the total number of ventricular premature contractions and ventricular tachycardia, total duration of ventricular fibrillation and the mortality. Additionally, a significant reduction in infarct size was noted in all of the MJ-355-treated groups. The hemodynamic and cardioprotective effects of MJ-355 were virtually abolished by pretreating the rats with glibenclamide (4 mg/kg, i.v. bolus), a selective K(ATP) channel blocker. In conclusion, MJ-355, through the activation of K(ATP) channels, exhibited antihypertensive and cardioprotective effects. It is suggested that MJ-355 should be useful in the treatment of hypertension and/or acute myocardial infarction.
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PMID:The effects of a newly synthesized ATP-sensitive potassium channel opener, MJ-355, on blood pressure and myocardial ischemia-reperfusion injury in rats. 1059 76

Potassium channel openers and blockers, which belong to a novel class of vasodilator drugs and to the class of specific bradycardic substances, are potential new antianginal drugs. Experimental findings in vivo suggest that bimakalim is a new substance characterized as ATP-sensitive K+ channel openers, since it exerts preferential vasodilation of the collateral circulation of the coronary vasculature and both leads to increase blood flow to ischemic areas and to attenuate the ST segment elevation caused by regional ischemia in the canine heart. Opening of KATP increases the conductivity of potassium ions which results in hyperpolarization of smooth muscle membranes, thus producing vasodilation. Tedisamil is a new bradycardic agent proven to exert antiischemic and antiarrhythmic effects by blockade of the cellular cardiac repolarization K+ currents as well as of multiple neuronal and vascular K+ currents (Ito, Ik, and K+ATP). Using right heart catheterization and exercise tolerance tests, we investigated the hemodynamic, antiischemic and neurohumoral effects of bimakalim and tedisamil in patients with angiographically proven coronary artery disease, stable angina pectoris and reproducible ST segment depression during exercise. In 50 patients with coronary artery disease, the hemodynamic and antiischemic effects of a single oral dose bimakalim of 0.1 mg, 0.3 mg and 0.6 mg were compared to placebo. In a dose-finding baseline-controlled study, a comparable collective was examined for the effects of acute i.v. administration of tedisamil 0.1, 0.2, 0.3 and 0.4 mg/kg bw. A subgroup of 8 patients receiving 0.3 mg/kg bw tedisamil i.v. was compared with a similar group of 14 patients who had received esmolol (i.v. bolus of 500 micrograms/kg, maintenance dose 200 micrograms/kg/min) and gallopamil (initial dose 0.025 mg/kg, maintenance dose 0.0005 mg/kg/h) in a second intra-individual comparison. Furthermore, in 48 patients, short-term (6 days) effects of tedisamil, 2 times 100 mg orally, were compared to 2 times 50 mg atenolol treatment. With a single oral dose of bimakalim antianginal and/or antiischemic effects were lacking, increased doses, however, induced changes in hemodynamics typical of vasodilation, i.e., a significant decrease in systolic blood pressure and a secondary chronotropic response. In contrast to bimakalim, tedisamil produced antiischemic effects and was found to have favorable hemodynamic, neurohumoral and antiischemic effects in comparison to the betablocker esmolol and atenolol in patients with coronary artery disease. Tedisamil induced a dose-dependent decrease in both heart rate and the index of myocardial oxygen consumption associated with an improvement in ST segment depression. Tedisamil as well as esmolol and atenolol showed almost equipotent antiischemic effects at the doses administered. Compared with gallopamil, both tedisamil and esmolol were superior in their effects on myocardial oxygen consumption and ST segment depression, whereas plasma lactate concentrations were more reduced by tedisamil and gallopamil.
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PMID:Potassium channel openers and blockers in coronary artery disease. Comparison to betablockers and calcium antagonists. 1082 53

ATP-sensitive K(+) (K(ATP)) channel openers have been shown to be a potential class of therapeutic agents for the control of cardiovascular diseases, including angina, arrhythmias, and hypertension. In this study, the pharmacological activity of 6-cyano-3S,4R-dihydro-2, 2-dimethyl-2H-3-hydroxy-4-[5S-(1-hydroxymethyl)-2-oxo-1-pyrrolidinyl] -1-benzopyran ((-)-MJ-451), a synthetic K(ATP) opener, was evaluated in anesthetized rat models and in isolated rat thoracic rings. Results demonstrated that intravascular injection of (-)-MJ-451 (0. 02, 0.05 and 0.1 mg/kg) produced an immediate, dose-related reduction in mean arterial blood pressure in anesthetized spontaneously hypertensive rats (SHR), which persisted for more than 3 h and was not accompanied by reflex tachycardia. The hemodynamic changes were completely abolished by pretreatment with glibenclamide (4 mg/kg, i.v. bolus), a selective K(ATP) channel blocker. In isolated thoracic aorta, (-)-MJ-451 (10 nM-3 microM) produced a concentration-dependent vasodilator effect on the phenylephrine (0.3 microM)-induced vasoconstriction. Moreover, (-)-MJ-451 relaxed the thoracic aorta contracted by low (5, 20 and 30 mM), but not high (40 and 60 mM) concentrations of extracellular potassium. In addition, (-)-MJ-451 showed cardioprotective effects in the rat model of 45-min left coronary artery occlusion followed by 1-h reperfusion. In myocardial ischemia, pretreatment with (-)-MJ-451 (2, 5 and 10 microg/kg, i.v. bolus) significantly reduced the incidence of ventricular fibrillation and the mortality, also reducing the total number of ventricular premature contractions, total duration of ventricular tachycardia and ventricular fibrillation. A significant reduction in infarct size was noted in three (-)-MJ-451 (2, 5 and 10 microg/kg)-treated groups. Also, the cardioprotective effects of (-)-MJ-451 were virtually abolished by pretreating the rats with glibenclamide (4 mg/kg, i.v. bolus). In conclusion, (-)-MJ-451, through opening the K(ATP) channel, exerted antihypertensive and cardioprotective effects. Therefore, it is suggested that (-)-MJ-451 has potential in the treatment of hypertension or acute myocardial infarction.
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PMID:The antihypertensive and cardioprotective effects of (-)-MJ-451, an ATP-sensitive K(+) channel opener. 1084 9

Nicorandil is a drug with both nitrate-like and ATP-sensitive potassium-channel (K+ ATP) activating properties. By virtue of this dual mechanism of action, the drug acts as a balanced coronary and peripheral vasodilator and reduces both preload and afterload. The K+ ATP channel has been shown to be involved in the phenomenon of myocardial preconditioning, and studies in animal models of ischaemia-reperfusion-induced myocardial stunning or infarction indicate that nicorandil has cardio-protective effects. Studies in patients undergoing percutaneous transluminal coronary angioplasty (PTCA) have shown that the administration of nicorandil reduces ST-segment elevation during ischaemia. Nicorandil significantly improved the results of exercise tolerance tests versus baseline in patients with stable effort angina pectoris in early noncomparative trials. The drug also improved the results of exercise tolerance tests relative to placebo in early randomised, double-blind, placebo-controlled trials. In randomised, double-blind comparative studies in patients with angina pectoris, nicorandil has demonstrated equivalent efficacy, as measured by exercise tolerance testing, to isosorbide di- and mononitrate, metoprolol, propranolol, atenolol, diltiazem, amlodipine and nifedipine. The effects of nicorandil on various aspects of myocardial recovery from ischaemic damage caused by acute myocardial infarction have been investigated in the short term. Regional left ventricular (LV) wall motion, a marker of myocardial function, was significantly improved in nicorandil recipients relative to control. The main adverse event associated with nicorandil as treatment for angina pectoris is headache. This can be minimised by commencing nicorandil at a low dose in patients prone to headache. There have been infrequent case reports of mouth ulcers in patients receiving nicorandil; causality has not been conclusively established, but product prescribing information indicates that an alternative treatment should be considered if persistent aphthous or severe mouth ulceration occurs. Thus, nicorandil remains a useful background therapy for patients with angina pectoris. The drug has also demonstrated potential cardioprotective effects when used as part of an intervention strategy directly after acute myocardial infarction in high-risk patients. Further large scale longer term studies of nicorandil in this latter indication are awaited with interest.
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PMID:Nicorandil. An updated review of its use in ischaemic heart disease with emphasis on its cardioprotective effects. 1108 2

Decreasing heart rate is potentially useful in ischaemic heart disease. Tedisamil is a bradycardic agent resulting from its ability to inhibit transient outward current (I(to)) in atria. Tedisamil inhibits I(to), potassium current (IK), K(ATP) and the protein kinase A-activated chloride channel in ventricles as well as vascular IK and Ca(2+)-activated IK (IK((Ca))). Tedisamil prolongs cardiac action potentials and the corrected QT (QTc) of the ECG and also increases cardiac refractoriness. Tedisamil is anti-arrhythmic in animal models of ventricular arrhythmias and atrial flutter. The bradycardic effect of tedisamil is associated with a reduction in myocardial oxygen demand. On isolated rat ventricle, tedisamil is a positive inotrope and on isolated rabbit atria, tedisamil reverses the negative inotropic effect of pinacidil. Tedisamil contracts the isolated rat portal vein and aorta, reduces cromakalim-induced relaxations of contracted rat aorta and increases blood pressure in animals and humans. Tedisamil is 96% bound to plasma proteins, has a plasma half-life of about 10 h and is cleared from the kidney unchanged. Clinical trials have shown that the electrophysiology of tedisamil is that of a class III anti-arrhythmic. In coronary artery disease, tedisamil has no effect on inotropism and increases the threshold for angina. Potassium channel blockade with tedisamil may have advantages over calcium channel blockers or K(ATP) channel openers as an anti-ischaemic mechanism in coronary artery disease. In exercise-induced myocardial ischaemia, beta-blockers are probably favourable to tedisamil, as they will limit the increase in heart rate, contractility and blood pressure caused by sympathetic stimulation, whereas tedisamil will not. In heart failure patients, tedisamil reduces heart rate, but increases blood pressure. The usefulness of tedisamil as a bradycardic agent is limited by the increase in blood pressure. A drug that is bradycardic without increasing blood pressure would be an improvement on tedisamil as the master switch of nature for ischaemic heart disease.
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PMID:Tedisamil: master switch of nature? 1111 86

Metabolic support for the heart has been an attractive concept since the pioneering work of Sodi-Pallares et al. four decades ago.* Recently, interest has increased in the use of over-the-counter supplements and naturally occurring nutriceuticals for enhancement of cardiac and skeletal muscle performance. These include amino acids such as creatine, L-carnitine, and L-arginine, as well as vitamins and cofactors such as alpha-tocopherol and coenzyme Q. Like these other molecules, D-ribose is a naturally occurring compound. It is the sugar moiety of ATP and has also received interest as a metabolic supplement for the heart. The general hypothesis is that under certain pathologic cardiac conditions, nucleotides (particularly ATP, ADP, and AMP) are degraded and lost from the heart. The heart's ability to resynthesize ATP is then limited by the supply of D-ribose, which is a necessary component of the adenine nucleotide structure. In support of this hypothesis, recent reports have used D-ribose to increase tolerance to myocardial ischemia. Its use in patients with stable coronary artery disease improves time to exercise-induced angina and electrocardiographic changes. In conjunction with thallium imaging or dobutamine stress echocardiography, D-ribose supplementation has been used to enhance detection of hibernating myocardium. In this article, we review the biochemical basis for using supplemental D-ribose as metabolic support for the heart and discuss the experimental evidence for its benefit.
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PMID:D-Ribose as a supplement for cardiac energy metabolism. 1115 Mar 94

Coenzyme Q10 or ubiquinone normally present in many plant and animal cells is an antioxidant. Coenzyme Q10 deficiency has been observed in patients with congestive heart failure, angina pectoris, coronary artery disease, cardiomyopathy, hypertension, mitral valve prolapse and after coronary revascularization. Coenzyme Q10 is involved in the synthesis of ATP and hence is useful in preventing cellular damage during ischaemia-reperfusion injury. The clinical benefits are mainly due to its ability to improve energy production, antioxidant activity, and membrane stabilizing properties. Several studies showed that coenzyme Q could be useful in patients with congestive heart failure, angina pectoris, cardiomyopathy, coronary artery disease and in the preservation of myocardium. Coenzyme Q10 is normally present in the low density lipoprotein cholesterol fraction and inhibits its oxidation. It can also regenerate vitamin E. Coenzyme Q10 is known for producing minor gastrointestinal discomfort and elevation in SGOT and LDH when used.
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PMID:Coenzyme Q in cardiovascular disease. 1127 51

Sulphonylurea derivatives (SUD) are a mainstay of treatment of type 2 diabetes but questions have been raised about the potential adverse effects of these drugs as far as cardiovascular functions are concerned. An early prospective study which examined the effects of glycaemic control with various agents on coronary heart disease was stopped in the 70-ies due to excess cardiovascular mortality in the group receiving SUD of first generation: tolbutamide. The discovery of ATP-sensitive potassium channels in the heart, their role in ischaemic heart disease and mechanisms of endogenous cardiac cell protection--preconditioning have brought back concerns of SUD safety. Recently, a new SUD--glimepiride--claimed as the first representant of III generation of these agents--has been introduced into clinical practice. Glimepiride appears to be devoid of vascular ATP-sensitive potassium channels binding properties. Postulated and confirmed in animal experimental studies cardioprotective features of glimepiride were evaluated in a randomised, placebo-controlled study with glimepiride and glibenclamide comparing effects of these drugs on ischaemic preconditioning during angioplasty of high grade coronary artery stenoses in patients with stable angina. Myocardial ischaemia was quantified by intracoronary electrocardiography and time to occurrence of angina during vessel occlusion was measured. The results of the study confirmed glimepiride effects of maintaining myocardial preconditioning. The article summarises current knowledge of SUD influence on cardiovascular system and discusses some differences in pharmacodynamics of glimepiride which appear to provide this agent with clinical advantages over conventional SUD at least in cardiovascular aspects.
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PMID:[Sulphonylurea derivatives and the cardiovascular system]. 1129 25

A brief episode of ischemia renders the brain resistant against subsequent, longer ischemic events. This ischemic tolerance has been shown in numerous experimental models of cerebral ischemia. After global cerebral ischemia, ischemic tolerance may protect up to 90% of hippocampal CA1 neurons. In focal ischemia, this phenomenon reduces infarct volume by 20-60%. However, the basic molecular mechanisms of ischemic tolerance are largely unknown. During the induction phase, N-methyl-d-aspartate (NMDA) and adenosine receptors and, possibly, oxygen free radicals and conservation of energy metabolism are required. Protein kinases, transcription factors, and immediate early genes appear to transduce the signal into a tolerant response. Ischemic tolerance can be observed in different phases. The early phase lasts for several hours after the preconditioning stimulus and adenosine receptors and ATP-dependent potassium channels play a role similar to that in cardiac ischemic tolerance. The delayed protection, retained for a maximum of 2-4 days, currently is best explained by genetic remodeling with expression or repression of multiple genes. Several candidates have been identified to date, among them heat-shock proteins, cytokines, and antioxidant enzymes. Several studies have shown that angina pectoris before myocardial infarction represents a clinical correlate of experimental preconditioning protocols. Accordingly, evidence for a possible protective effect of transient ischemic attacks (TIAs) occurring before stroke are accumulating.
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PMID:[Ischemia tolerance; model for research, hope for clinical practice?]. 1132 Aug 60

The human heart progressively becomes more tolerant to ischemia after repeated balloon inflations during percutaneous transluminal coronary angioplasty (PTCA). The present study investigated whether nicorandil, a hybrid between nitrate and an ATP-sensitive potassium channel opener, affects this ischemic preconditioning. Sixteen patients with stable angina pectoris caused by left anterior descending artery lesions were subjected to 2 balloon inflations of 2-min duration with a 3-min reperfusion period. Seven of these patients served as the control group and in the remaining 9 patients, nicorandil was administered intravenously (6 mg/h) throughout the PTCA procedure (nicorandil group). The lactate extraction ratio (LER) was obtained at 30 s after each ischemic event (LERpost-1 and LERpost-2) in both groups. In the control group, LERpost-1 was more negative than LERpost-2 (-185.7+/-74.2 vs -98.0+/-37.3%, p<0.01). The ratio of the sum of the ST elevation in the precordial leads during the second inflation (sumST-2, 0.94+/-0.66 mV) to that during the first inflation (sumST-1, 1.43+/-1.17 mV) was 0.72+/-0.16 in the control group, which was less than the ratio in the nicorandil group (1.06+/-0.13, p<0.01). Nicorandil abolished the difference between the 2 ischemic events (LERpost-1, -45.1+/-41.6 vs LERpost-2, -43.5+/-51.1%; sumST-1, 1.38+/-0.80 vs sumST-2, 1.46+/-0.90 mV). LER was less negative in the nicorandil group than that in the control group (LERpost-1, -45.1+/-41.6 vs -185.7+/-74.2%, p<0.01; LERpost-2, -43.5+/-51.1 vs -98.0+/-37.3%, p<0.05). Thus, nicorandil improved lactate metabolism during PTCA without significantly influencing ST-elevation. In conclusion, intravenous pre-administration of nicorandil appears to precondition the human heart during PTCA.
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PMID:Nicorandil, a hybrid between nitrate and ATP-sensitive potassium channel opener, preconditions human heart to ischemia during percutaneous transluminal coronary angioplasty. 1140 35


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