UMLS:C0018799 - FACTA Search

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Query: UMLS:C0018799 (heart disease)
34,133 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This study tested the hypothesis that membrane transport is the major biochemical system of the myocardium altered in furazolidone-induced cardiomyopathy (round heart disease), before the development of myocardial failure, and that metabolic enzymes and contractile proteins are less affected. Compared with controls, maximal percentage depression of activities of myocardium from furazolidone-treated birds were 40 for creatine kinase, 30 for glycolysis, 30 for glycogen, 20 for myofibrils, 20 for Krebs's cycle enzymes, 15 for fatty acid oxidation and 10 for total soluble protein. Sodium and potassium transport, antioxidant system activity, myosin, myosin isoenzyme patterns and amino acid aminotransferases were unaffected. In marked contrast, the calcium-transport ATPase activity of the sarcoplasmic reticulum had undergone a 60 per cent compensatory increase in activity. The pattern of biochemical changes observed is consistent with a role of ischaemia in the pathogenesis of round heart disease and indicates that calcium transport by the sarcoplasmic reticulum is the major biochemical system affected.
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PMID:Myocardial biochemical changes in furazolidone-induced cardiomyopathy of turkeys. 232 37

A sensitive and highly specific ELISA assay was developed to determine the anti-myosin humoral immune response (AMA) in various heart diseases: acute viral myocarditis, infective endocarditis, acute myocardial infarction, and valve and coronary bypass surgery. The mean study entry AMA titer of each patient group was already significantly increased compared with age matched controls. During further follow-up (90 d) all the groups except for endocarditis showed a significant increase of AMA titer compared with their entry titer. Anti-myosin antibody titer were higher after cardiac surgery than after myocardial infarction or inflammatory heart disease. These results suggest that anti-myosin immune response is not limited to infectious processes in which the pathogen induces antibodies which cross-react with heart constituents but is merely caused by direct cardiac injury. Myosin as a major compound of heart cellular proteins turned out to be a good candidate to trigger immune response after cardiac injury.
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PMID:Anti-myosin humoral immune response following cardiac injury. 249 42

Force development and shortening by cardiac muscle occur as a result of the interaction between actin and myosin within the myofibrillar lattice. This interaction is dependent upon intracellular ionized calcium and is controlled by the troponin-tropomyosin regulatory proteins situated along the actin filament. In this study, we compared the myofibrillar content and myofibrillar Mg-ATPase activity of normal human ventricular muscle with that of ventricular muscle from patients in end-stage failure caused by coronary artery disease or cardiomyopathy and ventricular muscle from patients with heart failure due to mitral valve insufficiency. The results show that the amount of myofibrillar protein (mg/g wet wt ventricle) in hearts in end-stage failure (coronary artery disease and cardiomyopathy) is significantly lower compared with normal hearts and hearts in failure due to mitral valve insufficiency. However, the Mg-ATPase activity of myofibrils from hearts in both end-stage failure and failure due to mitral valve insufficiency is significantly lower compared with myofibrils from normal hearts. The data suggest that the reduction in the amount of myofibrillar protein in ventricular tissue is a pivotal event that may be responsible for the progression of heart disease to the point of end-stage failure.
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PMID:Changes in myofibrillar content and Mg-ATPase activity in ventricular tissues from patients with heart failure caused by coronary artery disease, cardiomyopathy, or mitral valve insufficiency. 296 7

Postinfection sera from A.CA/SnJ A.SW/SnJ, B10.S/SgSf, and B10.PL/SgSf mouse strains which varied in their susceptibility to Coxsackievirus B3-induced immunopathology were suspected to contain autoantibodies against cardiac tissue. These sera were used to identify the target myocardial autoantigen(s). Sera pools were made during the peak of the early, virus-induced myocarditis at 5 and 7 days and during the peak of the late, immunopathic phase of myocarditis at Days 15 and 21 after infection. Only the A.CA/SnJ and A.SW/SnJ strains which develop the immunopathic heart disease had heart-specific autoantibodies as determined by indirect immunofluorescence. This panel of sera pools was then tested against solubilized extracts from whole heart and skeletal muscles. Results from Western immunoblotting analyses demonstrated that antibodies to myosin were a prominent feature in the sera of strains which developed immunopathic myocarditis. The immunopathic sera pools were subsequently assayed against low-salt, high-salt, and a number of detergent extracts of heart and skeletal muscle. Anti-myosin was still the most notable reactivity, even though other autoantigens were detected. Absorption with cardiac myosin removed the vast majority of heart reactivity from the pooled sera derived from the A.CA/SnJ and A.SW/SnJ strains as determined within the limitations of the immunofluorescent and immunochemical assays. Both sarcolemmal and A-band staining patterns were abolished by the cardiac myosin absorption. These studies suggest that myosin is one of the major autoantigens in Coxsackievirus B3-induced autoimmune myocarditis.
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PMID:Heart-specific autoantibodies induced by Coxsackievirus B3: identification of heart autoantigens. 303 May 91

Several mouse strains are susceptible to immunopathic myocarditis after infection with Coxsackievirus B3 (CB3). This disease is associated with autoantibodies that are directed against myosin. In this study we characterized sera from CB3-infected mice for their reactivity with three different myosin isoforms (heart, skeletal muscle, and brain myosins) and for autoantibody isotype by using an ELISA. Competitive inhibition assays and absorption studies with various myosins demonstrated the presence of two autoantibody populations in sera of susceptible A.CA and A.SW mice. The first was specific for cardiac myosin and was mainly IgG. The second antibody population cross-reacted with heart, skeletal muscle, and brain myosin and was mainly IgM. B10.PL/SgSf and B10.A/SgSf mice, which do not develop immunopathic myocarditis, produced only the IgM autoantibody population cross-reactive with all three myosin isoforms. Because the heart-specific myosin autoantibodies were found exclusively in the mouse strains that developed immunopathic myocarditis, they can be considered a serologic marker for autoimmune heart disease.
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PMID:Autoantibodies specific for the cardiac myosin isoform are found in mice susceptible to Coxsackievirus B3-induced myocarditis. 303 Nov 59

The ability to induce alcoholic cardiomyopathy has been tested in a variety of animal species. Myocardial alterations consistent with subclinical heart disease have been produced in many of these studies through a direct effect of ethanol or its metabolites upon the heart or a neurohumoral mechanism. In the rat most studies have, however, failed to finding diminished contractility in the basal state. In long-term animals the acute left ventricular responses to isoproterenol and calcium as well as pacing were reduced. Long-term studies in mongrel dogs fed 36 per cent of calories as ethanol produced an early decrease in left ventricular diastolic compliance related to interstitial collagen accumulation. Diminished contractility developed by four years. In addition to the morphologic evidence of distorted sarcoplasmic reticulum, in vitro experiments suggest important acute effects. Each mole of ethanol is bound tightly to each mole of protein comprising the Ca-ATPase pump, which is inhibited. Impaired uptake and binding of calcium by the sarcoplasmic reticulum has been observed in chronic alcohol models at one to two day intervals following the last exposure to ethanol. In addition, the flux of calcium ion does not appear normal in terms of access to contractile protein, where the calcium regulated inhibition of the troponin interaction with myosin is impaired. Experimental studies in a canine model of alcoholism revealed that the ventricular fibrillation threshold was moderately reduced in the basal state after 18 months and was diminished further after acute exposure.
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PMID:Experimental models for studying the effects of ethanol on the myocardium. 331 64

In earlier studies using papillary muscles of the rat left ventricle and highly sensitive thermopiles we demonstrated that the heat liberated per gram of myocardium per unit of developed tension-time integral is decreased when the rats suffered from hypothyroidism or renal hypertension. This increase in economy of force production was shown to be associated with a decrease in myosin-ATPase activity and a change in isomyosin composition. In a recent study we showed an increase in heat per gram of mammalian myocardium per tension-time integral of 70% after application of isoproterenol. In order to study the relationship between energy costs and developed tension-time integral in the human heart, haemodynamics and myocardial oxygen consumption were measured. The data were obtained using a Millar microtip catheter pressure transducer and the argon method. Haemodynamics and myocardial energetics were analysed in 8 patients without significant heart disease before and after application of isoproterenol and in 10 patients with dilative cardiomyopathy (NYHA II-III). During one cardiac cycle, myocardial oxygen consumption per gram of LV myocardium per beat (MVO2/g x beat) is related to LV stress-time integral (integral of sigma xt). The economy of myocardial contraction (EC) was calculated by (formula; see text) EC was 11.3 +/- 3.2 in normal and 14.3 +/- 4.7 dyn x s x g/cm2 x mu cal in dilative cardiomyopathic hearts (NS). Isoproterenol decreased EC from 11.3 +/- 3.2 to 5.5 +/- 1.6 dyn x s x g/cm2 x mu cal in the normal hearts (p less than 0.01). In the rat myocardium, changes in economy of force generation were found due to catecholamines, pressure overload and hypothyroidism. In the human heart, similar energetic changes were observed due to catecholamines. No significant differences in energy of force production were seen between normal and dilative cardiomyopathic hearts. The effect of catecholamines in the mammalian and human myocardium is explained by changes in activation processes and in chemomechanical energy transduction at the level of the contractile proteins.
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PMID:Acute and chronic changes of myocardial energetics in the mammalian and human heart. 366 28

After infection with coxsackie virus B3 (CB3), H-2 congenic mice on an A- background develop immunologically mediated myocarditis associated with an increased titer of myosin autoantibody, part of which is specific for the cardiac myosin isoform. The present study demonstrates that cardiac myosin itself induces severe myocarditis and high titers of myosin autoantibodies in A/J, A.SW/SnJ, and A.CA/SnJ mice. As in CB3-induced myocarditis, one population of these autoantibodies was specific for cardiac myosin. A.BY/SnJ and B10.A/SgSnJ mice also developed the disease after immunization, but the prevalence and the myosin autoantibody titers were lower. In contrast, C57BL/6J and C57BL/10J mice were resistant to myocarditis induced by cardiac myosin and did not develop increased myosin autoantibodies or cardiac myosin-specific autoantibodies. Immunization with skeletal muscle myosin had no effect compared with controls injected with complete Freund's adjuvant, thereby suggesting that the immunogenic epitopes are unique to the cardiac myosin isoform. Furthermore, we found that susceptibility to myocarditis induced by cardiac myosin is influenced by the major histocompatibility complex and by genes not closely linked to the major histocompatibility complex. Because there are parallels between myocarditis induced by cardiac myosin and that induced by CB3, this new animal model can be used to analyze the pathologic mechanisms in autoimmune heart disease.
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PMID:Cardiac myosin induces myocarditis in genetically predisposed mice. 368 Sep 46

We have developed anticardiac myosin antibodies, especially monoclonal antibodies, for helping in the diagnosis of heart disease. Our investigations were divided into three research projects. We visualized the distribution of myosin isozymes in human atrial and ventricular myocardium by an immunofluorescence staining method using monoclonal antibodies specific for individual human cardiac myosin isozymes. We also revealed the redistribution of these cardiac myosin isozymes in an overloaded condition. The isozymic pattern of cardiac myosin was changed from the atrial type to the ventricular type in the overloaded atrium. This isozymic redistribution can be considered as physiological adaptive mechanism to meet increased cardiac work during overload. We developed a new method of imaging for myocardial infarction by single photon emission tomography using labelled monoclonal antibody specific for cardiac myosin heavy chain. Specific localization of the labelled antibody was demonstrated in the infarcted area and no accumulation of radioactivity was shown in the bone matrix as observed in 99mTc pyrophosphate images. We developed a sensitive radioimmunoassay of cardiac myosin light chain I (LCI) and demonstrated that peak serum levels of LCI in the patients with acute myocardial infarction correlated well with the left ventricular ejection fraction. Furthermore, LCI release from the infarcted myocardium was not affected by coronary reperfusion due to intracoronary thrombolysis. Thus, serial determinations of serum LCI better quantify the extent of myocardial damage even after coronary reperfusion in acute myocardial infarction.
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PMID:Applications of anticardiac myosin monoclonal antibodies in the diagnosis of heart disease. 405 38

We tested the hypothesis that hypertrophy of the human heart is associated with the redistribution of ventricular isomyosins. Human cardiac myosin was isolated from autopsy samples of left ventricular free wall of patients with cardiac hypertrophy and of fetal, young, and adult subjects without heart disease. The following parameters were studied: electrophoretic migration in denaturing and non-denaturing conditions; immunological cross-reactivities with three different types of antibodies; and early phosphate burst size and steady state ATPase activities stimulated by K+-EDTA, Ca++, Mg++, and actin. The antibodies were chosen for their ability to recognize selectively the rat V1 and V3 cardiac isomyosins. The first type was a monoclonal antibody, CCM-52, prepared against embryonic chick cardiac myosin, the second was an anti-beef atrial myosin, and the third was an anti-rat V1 myosin. CCM-52 reacted with a greater affinity with rat V3 than with rat V1, and was a probe of mammalian V3. Anti-beef atrial myosin and anti-rat V1 myosin both recognized specifically beef atrial and rat V1 myosins, and were thus considered as probes of mammalian V1. Under non-denaturing conditions, human myosins migrated as rat V3 isomyosin; under denaturing conditions, no difference was observed in any of the electrophoretic parameters between all samples tested, except for the fetal hearts which contained a fetal type of light chain. The immunological studies indicated that human myosins were composed mostly of a V3 type (HV3), but contained also some V1 isomyosin. A technique was developed to quantify the amount of human VI isomyosin which was found to range from almost 0 to 15% of total myosin, and to vary from one heart to the other, regardless of the origin of the heart. Enzymatic studies showed no significant difference between normal, hypertrophied, and fetal hearts in any of the activities tested. However, there was a significant correlation between Ca++-stimulated ATPase activities and HV1 amount (at 0.05 M KCl, n = 18, r2 equal 0.49, P less than 0.01; at 0.5 M KCl, n = 18, r 2 = 0.5, P less than 0.01). These data demonstrate the heterogeneity of human ventricular myosin, which appears to be composed, as in other mammalian species, of V1 and V3 isoforms of different ATPase activities (V1 greater than V3). However it seems that V1 to V3 shifts do not appear to be of physiological significance in the adaptation of human heart to chronic mechanical overloads.
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PMID:Myosin isoenzymes in normal and hypertrophied human ventricular myocardium. 622 46

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