UMLS:C0018801 - FACTA Search

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

We investigated systolic blood pressure (BP), ventricular myosin isoenzyme (MI) pattern, and myosin P-light chain phosphorylation (MP) of male and female normotensive (WKY) and spontaneously hypertensive rats (SHRSP). BP increased in SHRSP of both sexes during maturation. Male SHRSP reached a significantly higher BP (262 mmHg at week 64) than female SHRSP (217 mmHg at week 64). WKY remained at approximately 114 mmHg throughout the life-span investigated (5 to 64 weeks). MI pattern (expressed as %V1/%V3) shifted age-dependent to the V3 form: In female SHRSP MI pattern was 41/25 at week 18, 34/35 and 40/38 within week 22 to 32, and shifted to 18/53 until week 64. In male SHRSP MI pattern was 25/44 at week 18 and shifted gradually to 13/60 until week 53. MI patterns of WKY of both sexes were 100% V1 within week 5 to 12, shifted gradually to 51/23 and then remained constant until week 64. MP of the ventricle of female WKY and SHRSP was approximately 41% until week 52. At week 64, however, MP of female SHRSP decreased to 18% whereas female WKY remained at approximately 41%. MP of the ventricle of male WKY and SHRSP was approximately 38% until week 38. At week 44, however, MP of male SHRSP decreased to 22% whereas male WKY remained constant. Isometric tension generation of chemically skinned rat ventricular fibres increased after MP by calcium-calmodulin-dependent myosin light chain kinase. Both the shift to the V3 form and the decreased MP level might contribute to the development of cardiac failure in old SHRSP of both sexes.
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PMID:Chronic hypertension changes myosin isoenzyme pattern and decreases myosin phosphorylation in the rat heart. 297 39

Experimental results obtained from studies on Goldblatt rats and spontaneously hypertensive rats as well as theoretical considerations render possible an approximate analysis and evaluation of the relative significance of specific factors at different levels of the heart for the manifestation of cardiac failure under chronic pressure overload. In our experimental models congestive failure was never observed independently of structural dilatation. Thus, as a rule dilatation had already set in before symptoms of heart failure became manifest. However, at moderate dilatation of the ventricle, e.g., at double the end-diastolic volume, the geometrical state per se cannot be the cause of hydropic decompensation whereas extreme dilatation would, in principle, cause cardiac pumping failure even in the absence of any impairment of myocardial "contractility". Generally, a more or less marked impairment of myocardial contractile capability was found, which exceeded the effects due to the altered isoenzyme pattern of myosin. As a rule, a reduction in myocardial "contractility" could be ascertained before a marked degree of dilatation was reached. Diffuse fibrosis impairs the contractile capability of the myocardium and certainly contributes to the manifestation of heart insufficiency; although, as a rule, it should not be the main cause. The adaptive transformation of myocardium towards a slower muscle (isoenzyme pattern of myosin; sarcoplasmatic reticulum) as such does not lead to resting insufficiency, not even under persisting pressure load. Further investigations on processes of excitation-mechanical coupling in the advanced stage of cardiac overload are indicated. The absence of sympathetic support to the heart, e.g., following blockade of beta-adrenergic receptors can, in the advanced stage, elicit a transition from the stage of pre-insufficiency to manifest failure. However, this was only observed when dilatation had already occurred. A network of factors are responsible for cardiac insufficiency due to pressure overloading, whereby the respective significance of each component varies, depending on the experimental model used.
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PMID:Pathophysiological mechanisms in cardiac insufficiency induced by chronic pressure overload--an attempt to analyze specific factors in animal experiment. 379 41

Myosin form birefringence has been studied in cryostat sections of left ventricular myocardium from the dog and human. The muscle in such sections has been shown to demonstrate the sliding filament phenomenon. The sarcomere length of canine myocardium agreed with that found in comparable electron micrographs. Unexpectedly, it was found that glycerol, normally used as an inert and optically ideal mountant, caused profound change in myosin birefringence. This apparently invalidates results obtained with this mountant. The absolute birefringence found in these sections, whether mounted in glycerol or in an ATP-calcium buffer, corresponded to values found by other workers with skeletal muscle and isolated myosin. However, the birefringent properties (optical path difference: o.p.d.) of well functioning muscle was found to be low, the o.p.d. increasing when exposed to ATP and calcium. Poorly functioning muscle could be distinguished from well functioning muscle on the basis of its higher 'in air' o.p.d. This difference correlated well with physiological assessments of myocardial function or with clinical assessments of cardiac failure. Evidence is presented indicating that changes in apparent birefringence, caused by ATP-calcium or by anoxia, are due to altered orientation of the myosin micelles and can be inhibited by agents that inhibit myosin ATPase activity.
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PMID:Increased myosin orientation during muscle contraction: a measure of cardiac contractility. 383 15

Superprecipitation (SP) of artificial actomyosin, obtained by hybridization of Straub actin from the human myocardium with myosin of normal animal hearts was studied. Actin was prepared from the myocardium of persons who died of congestive heart failure and various non-cardiac diseases, as well as of infants whose death resulted from toxic pneumonia complicated or not with heart failure. It was shown that, in the control hybrid actomyosin, the substitution of normal Straub actin by that from the failing heart resulted in decrease of both the rate and extent of SP. The conclusion was made that both changes in myosin properties and Straub actin underlie the reduced contractility of the myofibrillar protein system in acute and congestive heart failure.
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PMID:Superprecipitation of hybrid actomyosin containing pathologic actin from failing hearts of adults and infants. 402 5

Trabecular preparations from the hog heart right ventricle were "skinned" by treatment with Lubrol WX and glycerol. Ca++ activated isometric contractions were gradedly relaxed by inorganic phosphate (Pi) in the millimolar range or vanadate (Vi) in the micromolar range while tension cost (ATP split/force generated) was increased by a factor of 1.75. From measurements of force, ATPase activity, immediate stiffness and stretch activation, evidence is provided that the mechanical deactivation and the increase in tension cost may result from an acceleration of the myosin cross-bridge cycle, due to a direct interference of Pi and Vi with the chemomechanical energy transformation at the contractile proteins. The possible significance of such a mechanism in cardiac failure or muscle fatigue is discussed.
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PMID:Phosphate and vanadate reduce the efficiency of the chemo-mechanical energy transformation in cardiac muscle. 621 26

Chronic mechanical cardiac overload induces several adaptational processes, such as that provided by the Starling's law, which, allow the heart to function normally during a given period of time. Compensatory hypertrophy is, from a myocardial point of view, characterized by two main adaptational factors: hypertrophy due to a stimulation of protein synthesis and the slowing of the shortening velocity. This drop in contractility has undoubtedly been demonstrated in some experimental models, it is due to an isoenzymatic shift of myosin which is responsible for a depressed myosin ATPase activity. It has been clearly shown that this improves the efficiency of contraction, since for a given tension, the hypertrophied fiber produces less heat. Such a change does in fact exist in human heart but seems to have a limited physiological significance and in, any case, cannot explained the striking decrease in contractility which characterizes the final step of heart failure.
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PMID:[Biology of myocardial adaptation to mechanical overload]. 622 Jul 49

Research findings to date indicate that there may not be a discrete change in contractile proteins in the common forms of heart failure. While the search for a defective myosin molecule in this context no longer seems promising, it remains plausible to propose "up-regulation" to a myosin variant with high ATPase activity as a means of increasing contractility in the failing heart.
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PMID:Contractile proteins of the heart. 622 89

Cardiac muscle physiology, cardiac dynamics and energetics of normotensive and hypertensive rats [Goldblatt II, spontaneously hypertensive rats (SHR)] are analyzed in the light of the question of whether a shift in the isoenzyme pattern of myosin in favour of the isoenzyme VM-3--i.e., transformation towards a slower muscle--is the essential factor for manifestation of cardiac insufficiency under chronic haemodynamic overload. Earlier investigations on chemically skinned myocardial preparations with homogeneous VM-3 and VM-1 patterns revealed that the decrease in unloaded shortening velocity attributable to extreme redistribution of the isoenzyme pattern can amount to approx. 40% whereas isometric tension development at the myofibrillar level is not significantly reduced. Findings from old normotensive and spontaneously hypertensive rates show that even substantial prevalence of VM-3 permits adequate ventricular pumping function. The decrease in the systolic parameters observed in later stages of chronic pressure overload may be attributed primarily to regressive alterations (fibrosis, structural dilatation). Under chronic haemodynamic overload, experimentally imposed isoenzyme redistribution towards a faster myocardium (small thyroxine doses) as well as transformation towards a slower muscle (thyrostatic treatment) affects the time parameters of contraction and oxygen consumption more than left ventricular work capacity. Signs of congestive heart failure are absent. It is concluded that mere transformation of myocardium towards a more slowly functioning muscle should not be considered the cause of cardiac failure in the rat model although this adaptive process may have detrimental consequences under certain conditions.
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PMID:Cardiac alterations at the myofibrillar level: is a redistribution of the myosin isoenzyme pattern decisive for cardiac failure in haemodynamic overload? 624 88

Continued adverse remodeling of myocardium after infarction may lead to progressive ventricular dilation and heart failure. We tested the hypothesis that exercise training in a healed myocardial infarction-dysfunction rat model can favorably modify the adverse effects of ventricular remodeling including attenuation of abnormal myosin gene expression. Sprague-Dawley rats were subjected to either proximal LAD ligation or sham operation. At 5 wk after the operation, animals were randomly assigned to sedentary conditions or 6 wk of graduated swim training, creating four experimental groups: infarct sedentary (IS), infarct exercise (IE), sham sedentary (SS), and sham exercise (SE). At 11 wk all rats were sacrificed and analyzed. Compared to sedentary infarct controls, exercise training attenuated left ventricular (LV) dilation and allowed more hypertrophy of the non infarct wall. The exercise-trained hearts also showed a reduction in the estimated peak wall tension. Northern blot analysis showed an increase in beta-myosin heavy chain expression in the hearts of the sedentary infarction group soon after infarction when compared to sham controls. However, with exercise training, there was a significant attenuation of the beta-myosin heavy chain expression in the myocardium. Exercise training in a model of left ventricular dysfunction after healed myocardial infarction can improve the adverse remodeling process by attenuating ventricular dilation and reducing wall tension. The abnormal beta-myosin expression was also attenuated in the exercise trained group. This is evidence that abnormal gene expression following severe myocardial infarction dysfunction can be favorably modified by an intervention.
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PMID:Favorable left ventricular remodeling following large myocardial infarction by exercise training. Effect on ventricular morphology and gene expression. 763 80

1. The signal transduction process mediated by cyclic AMP that leads to the characteristic positive inotropic effect (PIE) in association with a positive lusitropic effect (acceleration of rate of twitch relaxation) has been well established. Relationships between accumulation of cyclic AMP, changes in intracellular Ca2+ transients and the PIE differ, however, depending on the mechanism of particular drugs that affect different steps in the metabolism of cyclic AMP. Selective partial agonists of beta 1-adrenoceptors and inhibitors of phosphodiesterase (PDE) III cause the accumulation of less cyclic AMP for a given PIE than does isoproterenol. In addition, in aequorin-microinjected canine ventricular muscle, selective inhibitors of PDE III, OPC 18790 and Org 9731, produced smaller decreases in the responsiveness of myofilaments to Ca2+ ions than isoproterenol, while a partial agonist of beta 1-adrenoceptors, denopamine, elicits a decrease in Ca2+ responsiveness of the same extent as does isoproterenol. 2. Activation of myocardial alpha 1-adrenoceptors, as well as stimulation of receptors for endothelin and angiotensin II, which accelerates hydrolysis of phosphoinositide (PI) to result in production of inositol 1,4,5-trisphosphate (IP3) and diacylglycerol (DAG) are associated with very similar inotropic regulation: (1) the dependence on the species of animals of induction of the PIE; (2) an excellent correlation between the extent of acceleration of hydrolysis of PI and the PIE; (3) isometric contraction curves associated with a negative lusitropic effect; (4) the PIE associated with increases in myofibrillar responsiveness to Ca2+ ions; and (5) the selective inhibition of the PIE by an activator of protein kinase C (PKC), phorbol 12,13-dibutyrate (PDBu), with little effect on the PIE of isoproterenol and Bay k 8644. 3. A novel class of cardiotonic agents, namely, Ca2+ sensitizers such as EMD 53998 and Org 30029, act on the Ca(2+)-binding site of troponin C, increasing the affinity of these sites for Ca2+ ions, or at the actin-myosin interface to facilitate the cycling of cross-bridges. These agents produce a PIE with little change or decrease in Ca2+ transients and may bring about a significant breakthrough in the development of drugs for reversal of myocardial failure in the treatment of congestive heart failure.
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PMID:The effects of various drugs on the myocardial inotropic response. 771 48

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