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:C0018801 (heart failure)
72,216 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

When rat hearts were subjected to abrupt hypoxia the onset of NADH changes as measured by epicardial fluorescence and of depressed contractility occurred at similar times. Direct measurements of changes in tissue metabolism lagged behind changes in fluorescence and contractility. Calculated NAD:NADH ratios became reduced more rapidly and to a greater extent in the cytoplasm than in the mitochondria, but did not necessarily signal greater changes in total NADH. The detection of depressed contractility before a fall in intracellular pH or a rise in intracellular lactate casts doubt on the postulate that an increase in hydrogen ion is the primary cause of hypoxic myocardial failure.
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PMID:Early changes in myocardial hypoxia: relations among mechanical function, pH, and intracellular redox states. 0 55

Insulin resistance and hyperinsulinemia is now recognized in non-insulin-dependent diabetes, essential hypertension, obesity, atherosclerotic heart disease, dyslipidemia, heart failure, and in heavy smokers. Several mechanisms have been proposed to explain hyperinsulinemia, insulin resistance and its relationship to hypertension; reduced sodium excretion, activation of the sympathetic nervous system, increased activity of the sodium/hydrogen pump, and stimulation of cellular growth. Some of the nonpharmacological methods to control hyperinsulinemia are of benefit in the management of hypertension, most notably weight loss, exercise program, and reduced salt intake. High-fiber and reduced-protein diets also reduce hyperinsulinemia. Thiazide diuretics can result in insulin resistance, and insulin secretion may be inhibited, possibly associated with concomitant hypokalemia. beta-Blockers result in some reduction of glucose tolerance and mask some of the features of hypoglycemia. Angiotensin-converting enzyme (ACE) inhibitors and alpha-receptor blockers do not effect insulin resistance; probably the same is true for calcium antagonists. Although the effect on risk factors should not be discounted, it is the effect of treatment on hard end points, cerebrovascular accidents, myocardial infarction, or death that is most important. Evidence in hypertension is at present restricted to diuretics and beta-blocking drugs.
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PMID:Hypertension and insulin resistance. 128 47

In experiments with isolated animal hearts it has been ascertained that free hemoglobin, lactic acids, catecholamines, vasopressin and acetylcholine at the concentrations they appear in patients' blood during open heart surgeries can produce cardiodepressive effects and cause acute heart failure. Cardiac reperfusion with a solution containing 20% less sodium, potassium, calcium, magnesium and hydrogen ions leads to severe heart failure: lower osmotic capacity and/or concurrent smaller Na+ and H+ concentrations were responsible for myocardial contractility disturbances.
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PMID:[Causes of disorders of the contractile function of the heart after cardioplegia]. 204 40

Glycolysis is slow in the heart, especially in the cardiomyopathic heart. Glycolysis is partially rate-limited by phosphofructokinase (PFK), an enzyme which is inhibited by calcium (Ca2+)i and hydrogen ions (H+)i and activated by cAMP. (H+)i and (Ca2+)i are augmented in cardiomyopathy. With glucose as the only substrate (NADH)/(NAD) the phosphorylation potential and developed pressure were significantly lower, and concentrations of phosphomonoester sugars and hydrogen ions (H+)i were significantly higher in isolated cardiomyopathic hearts as compared to healthy hamster hearts. Pyruvate lowered diastolic (Ca2+)i in cardiomyopathic hamster hearts. With pyruvate as the substrate (NADH)/(NAD), the phosphorylation potential and developed pressure increased significantly and concentrations of phosphomonoester sugars (PME), (H+)i and diastolic (Ca2+)i decreased significantly in myopathic hamster hearts. The results suggest that late heart failure in the myopathic hamster is associated with calcium and/or hydrogen ion-induced inhibition of glycolysis.
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PMID:Glycolysis in heart failure: a 31P-NMR and surface fluorometry study. 224 66

Nuclear magnetic resonance spectroscopy has great potential for defining noninvasively the metabolic status of the heart and skeletal muscle. This technique uses the spin properties of certain nuclei (such as phosphorus-31, hydrogen-1 and carbon-13) to measure high energy phosphates, intracellular pH, lactate and glycogen. Animal studies have formed the basis for human investigations and have demonstrated well-defined changes in high energy phosphates during myocardial ischemia and reperfusion, as well as in cardiomyopathies. Human studies have been limited by issues of sensitivity and localization, although techniques such as rotating frame, depth-resolved surface coil spectroscopy, image-selected in vivo spectroscopy and spectroscopic imaging have been used to acquire phosphorus-31 spectra from the human heart. The few human studies of patients with disease have demonstrated elevated inorganic phosphate peaks after myocardial infarction and abnormal phosphodiester peaks in patients with hypertrophic cardiomyopathy. Studies of patients with heart failure have shown that these patients acidify their peripheral muscles with exercise more easily than do control subjects. Clinical application of nuclear magnetic resonance spectroscopy will depend on technical advances and the demonstration of sensitivity of metabolic changes with disease.
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PMID:Cardiovascular applications of nuclear magnetic resonance spectroscopy. 267 66

Present noninvasive techniques to detect Adriamycin (doxorubicin) cardiotoxicity rely on assessment of myocardial function rather than direct observation of change in tissue character. Proton nuclear magnetic resonance imaging may provide a unique means of characterizing the myocardium. The relaxation properties T1 and T2 are related to certain biophysical properties of tissue such as water, lipid, and macromolecular content and have considerable impact on the intensity observed in nuclear magnetic resonance images. In a model of chronic Adriamycin cardiotoxicity in rats, T1 values of excised hearts were elevated, relative to control, in rats with histologic evidence of chronic cardiotoxicity (651 msec vs 622 msec, p less than 0.05) and more so in rats with gross evidence of toxicity or heart failure (668 msec, p less than 0.005). No significant change in T2 was observed. This T1 prolongation increases as disease worsens, whereas water concentration did not change significantly. The results suggest that predictable prolongation in T1 occurs in association with cardiotoxicity. In conclusion, proton nuclear magnetic resonance imaging methods could provide a new means for assessing Adriamycin cardiotoxicity.
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PMID:Adriamycin cardiotoxicity and proton nuclear magnetic resonance relaxation properties. 359 13

It is found that glutathione reductase and superoxidismutase activity decreases in postmitochondrial fraction of the myocardium tissue under cardiovascular insufficiency of the hemodynamic type. In erythrocytes the activity of lipoperoxide-detoxicating glutathione peroxidase--GSH-peroxidase II lowers and that of hydrogen peroxide-utilizing GSH-peroxidase I grows. Disturbances in the antioxidant enzymic systems are discussed for their role in development of cardiac insufficiency.
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PMID:[Activity of enzymes with an antioxidant action in the myocardium and blood of the rat during cardiovascular insufficiency]. 671 Jun 16

Polymorphonuclear neutrophils (PMN) participate in the development of myocardial injury by releasing free oxygen radicals and by involvement in the no-reflow phenomenon. Neutrophil-mediated myocardial injury, therefore contributes to the pathogenesis of heart failure. We investigated the effect of oral treatment with enalapril on neutrophil free oxygen radical production, aggregation and adherence in patients with moderate heart failure (New York Heart Association-NYHA II and III degrees). Samples were taken before and 48 h after a single 10 mg oral dose. Oral enalapril inhibited hydrogen peroxide released by unstimulated PMN, but did not affect stimulated H2O2 release, superoxide anion production, adhesion or aggregation of PMN. Enalaprilat in vitro stimulated PMN to release H2O2 and superoxide anions. Furthermore, in the in vitro conditions both enalaprilat and enalapril inhibited hydrogen peroxide release by stimulated cells. We conclude that, despite certain modifications of neutrophil function in vitro, oral administration of enalapril seems to exert a limited biological effect on circulating neutrophils.
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PMID:Evaluation of the effect of oral enalapril on neutrophil functions: comparison with the in vitro effect of enalapril and enalaprilat. 755 May 49

Normal ageing is associated with different changes in the cardiovascular system that lead to an increase in pathological processes such as hypertension and heart failure. Therefore the importance of glutathione peroxidase and catalase for protection against peroxidation was studied in the rat heart. Each of the these enzymes was regulated by feeding rats a low selenium diet either unsupplemented or supplemented with 0.4 parts per million of selenium, with or without the catalase inhibitor, sodium fluoride, in their drinking water. After 2 months, selenium deficient rats had 87% reductions in mitochondrial and cytosolic glutathione peroxidase activities. These reductions were accompanied by increased peroxidation in heart homogenates and mitochondrial suspensions. Since increased mitochondrial peroxidation only occurred when both the cytosolic and mitochondrial glutathione peroxidase activities were involved, these selenoenzymes appear to work in tandem and reductions in both are a prerequisite for increased peroxidation in the heart. Peroxidation did not occur in sodium fluoride treated rats even though cytosolic catalase activity was inhibited by 70%. Moreover, inhibition of catalase activity did not exacerbate the level of peroxidation in selenium deficient rats depleted of glutathione peroxidase activity. Because increased peroxidation was only associated with reductions in glutathione peroxidase activity irrespective of catalase activity, the selenoenzyme appears to be more important for detoxification of hydrogen peroxide in the heart.
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PMID:Enzymatic defenses of the rat heart against lipid peroxidation. 922 21

A major mechanism by which the heart adapts to intracellular acidosis during ischemia and recovers from the acidosis after reperfusion is through the sodium-hydrogen exchanger (NHE). There are at least 5 NHE isoforms thus-far identified with the NHE-1 subtype representing the major one found in the mammalian myocardium. This 110 kDa glycoprotein extrudes protons concomitantly with Na influx in a 1:1 stoichiometric relationship rendering the process electroneutral. Although NHE is critical for the maintenance of intracellular pH during acid loading conditions such as ischemia, there is convincing evidence that it also plays a pivotal role in mediating tissue injury during ischemia and reperfusion. The mechanism for this paradoxical deleterious role of NHE reflects the fact that under conditions of tissue stress, including ischemia, Na-K adenosine triphosphate (ATP)ase is inhibited thereby limiting Na extrusion resulting in an elevation in intracellular Na concentrations. The latter effect, in turn, will increase intracellular Ca concentrations via Na-Ca exchange. In addition, NHE-1 expression in the diseased myocardium is increased suggesting that elevated production of the antiporter represents a long-term adaptive process in an attempt by the cardiac cell to regulate intracellular pH which, paradoxically, contributes to cardiac pathology. Extensive studies using NHE inhibitors such as amiloride or its analogs, or more specific compounds including 3-methylsulphonyl-4-piperidinoloenzoyl-guanidine methanesulphonate (HOE 694) or 4-isopropyl-3-methylsulphonylbenzcyl-guanidine methane sulphonate (HOE 642) have consistently shown protective effects against ischemic and reperfusion injury in a large variety of experimental models and animal species particularly in terms of attenuating contractile dysfunction. Such studies have contributed greatly to the overwhelming evidence that NHE activation mediates ischemic and reperfusion injury. Indeed, HOE 642 (Cariporide) is currently undergoing clinical evaluation in high risk cardiac patients. Moreover, there is now emerging evidence that NHE may be involved in mediating cardiotoxicity directly produced by various ischemic metabolites such as lipid amphiphiles or reactive oxygen species. In this regard, we have demonstrated that NHE inhibitors can effectively attenuate the cardiac injury produced by lysophosphatidylcholine and hydrogen peroxide. In addition, it now appears that NHE inhibition reduces apoptosis in the ischemic myocardium, a process which may be of importance in the subsequent development of postinfarction heart failure. In conclusion, NHE represents an important adaptive process in response to intracellular acidosis resulting in a paradoxical contribution to cardiac tissue injury.
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PMID:The myocardial sodium-hydrogen exchanger (NHE) and its role in mediating ischemic and reperfusion injury. 965 15


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