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)

24 d of rapid ventricular pacing induced dilated cardiomyopathy with both systolic and diastolic dysfunction in conscious, chronically instrumented dogs. We studied mechanical properties and intracellular calcium (Ca2+i) transients of trabeculae carneae isolated from 15 control dogs (n = 32) and 11 dogs with pacing-induced cardiac failure (n = 26). Muscles were stretched to maximum length at 30 degrees C and stimulated at 0.33 Hz; a subset (n = 17 control, n = 17 myopathic) was loaded with the [Ca2+]i indicator aequorin. Peak tension was depressed in the myopathic muscles, even in the presence of maximally effective (i.e., 16 mM) [Ca2+] in the perfusate. However, peak [Ca2+]i was similar (0.80 +/- 0.13 vs. 0.71 +/- 0.05 microM; [Ca2+]o = 2.5 mM), suggesting that a decrease in Cai2+ availability was not responsible for the decreased contractility. The time for decline from the peak of the Cai2+ transient was prolonged in the myopathic group, which correlated with prolongation of isometric contraction and relaxation. However, similar end-diastolic [Ca2+]i was achieved in both groups (0.29 +/- 0.05 vs. 0.31 +/- 0.02 microM), indicating that Cai2+ homeostasis can be maintained in myopathic hearts. The inotropic response of the myopathic muscles to milrinone was depressed compared with the controls. However, when cAMP production was stimulated by pretreatment with forskolin, the response of the myopathic muscles to milrinone was improved. Our findings provide direct evidence that abnormal [Ca2+]i handling is an important cause of contractile dysfunction in dogs with pacing-induced heart failure and suggest that deficient production of cAMP may be an important cause of these changes in excitation-contraction coupling.
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PMID:Abnormalities in intracellular calcium regulation and contractile function in myocardium from dogs with pacing-induced heart failure. 131 23

Abnormal intracellular calcium ([Ca2+]i) handling appears to be a major cause of both systolic and diastolic dysfunction in animals and human beings with hypertrophy and/or heart failure. We utilized the bioluminescent calcium indicator aequorin to examine the cyclical variations in intracellular calcium levels during isometric contractions. Studies of ventricular muscle from patients with end-stage heart failure exhibited three physiologic findings not seen in preparations taken from normal hearts including: 1) abnormalities in calcium handling; 2) deficient production of cyclic AMP; and 3) a reversed force-frequency relationship. These observations have important implications with regard to the pathogenesis and therapeutics of heart failure in man.
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PMID:Pathophysiology of cardiac hypertrophy and failure of human working myocardium: abnormalities in calcium handling. 132 61

1. In right ventricular papillary muscles from control ferrets, flosequinan (10(-7)-10(-4) M) produced a concentration-dependent positive inotropic effect (10(-5) M = 153 +/- 24, 10(-4) M = 198 +/- 44% increase in isometric tension; control tension = 100%; n = 11) associated with a corresponding increase in amplitude of the intracellular Ca2+ ([Ca2+]i) transient recorded with aequorin (10(-5) M = 133 +/- 11, 10(-4) M = 187 +/- 36% increase in [Ca2+]i transient; n = 11). 2. The positive inotropic effect of flosequinan in control ferret ventricular muscle was neither blocked by propranolol (6 x 10(-7) M), nor associated with the abbreviation of the [Ca2+]i transient and contraction that is typical of catecholamines. 3. Neither flosequinan (n = 12) nor BTS 53 554, its sulphone metabolite (n = 6) produced a positive inotropic effect or altered the time course of contraction in myocardium from the hearts of patients with end-stage failure. 4. In contrast to milrinone, which produces a positive inotropic effect via phosphodiesterase inhibition, the unresponsiveness of myopathic human myocardium to flosequinan was not restored after intracellular adenosine 3':5'-cyclic monophosphate (cyclic AMP) levels were increased by prior treatment with forskolin (n = 13). 5. Taken together, these data indicate that flosequinan has a direct positive inotropic effect that is Ca(2+)-dependent, but independent of changes in intracellular cyclic AMP concentrations. 6. The positive inotropic effect may be species-dependent or altered by the presence of hypertrophy and/or heart failure. However, when used therapeutically in patients with severe heart failure, our data suggest that flosequinan should not adversely affect myocardial oxygen consumption through direct or catecholamine-mediated actions on the heart.
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PMID:Differential inotropic effects of flosequinan in ventricular muscle from normal ferrets versus patients with end-stage heart failure. 132 72

To examine the cellular mechanisms of contractile dysfunction in postinfarction heart failure, we studied the effects of beta-adrenergic receptor stimulation on contractile function and Ca2+i handling of noninfarcted papillary muscles from sham-operated (n = 17) and infarcted (n = 17) rats. Ca2+i transients measured with the bioluminescent protein aequorin and parameters of isometric contraction were recorded during graded isoproterenol stimulation. Developed tension and peak rate of tension rise were depressed (p less than 0.05) in muscles from infarcted rats at physiological and maximally stimulating [Ca2+]oS. The time to peak tension was prolonged in the muscles from the infarcted rats, corresponding with prolongation of the time to peak Ca2+i. In muscles from sham-operated rats, isoproterenol increased both the amplitude of the Ca2+i transient and the peak rate of tension rise. In contrast, the inotropic response to isoproterenol was severely blunted in the muscles from infarcted rats despite a large increase in the amplitude of the Ca2+i transient. Isoproterenol abbreviated the time course of the isometric twitch and the Ca2+i transient in both groups. These findings suggest that postinfarction heart failure may be related in part to decreased force-generating capacity of the myofilaments. Treatment with captopril for 5 weeks, beginning 1 week after infarction (n = 14), resulted in reduction of left ventricular filling pressures and partial normalization of myocardial contractility and Ca2+i handling. In addition, compared with muscles from untreated infarcted rats, muscles from the captopril-treated rats exhibited improved contractile responses to increasing [Ca2+]o or isoproterenol. The inotropic response to isoproterenol in muscles from all three groups of rats had a significant negative correlation (r = -0.64, p less than 0.0001) with left ventricular end-diastolic pressure measured in vivo. Thus, the defect in excitation-contraction coupling in rats with postinfarction heart failure may be partially normalized by chronic load reduction with an angiotensin converting enzyme inhibitor.
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PMID:Captopril enhances intracellular calcium handling and beta-adrenergic responsiveness of myocardium from rats with postinfarction failure. 132 96

To investigate the mechanism of impaired myocardial function after long-term pressure overload, we studied cardiac muscle mechanical contraction and intracellular calcium transients using the bioluminescent indicator aequorin. Left ventricular papillary muscle preparations were examined from three groups of rats: 1) aging spontaneously hypertensive rats (SHR) with clinical and pathological evidence suggesting heart failure (SHR-F group), 2) age-matched SHRs with no evidence of heart failure (SHR-NF group), and 3) age-matched normotensive Wistar-Kyoto rats (WKY group). Isometric force development was depressed in both SHR groups relative to the WKY group. Resting [Ca2+]i was lower in the SHR-F group, and the time to peak [Ca2+]i was prolonged in this group. The relative increases in peak [Ca2+]i with the inotropic interventions of increased [Ca2+]o and the addition of isoproterenol were similar among groups. Although inotropy increased in all groups with increased [Ca2+]o, after isoproterenol, inotropy increased only in the WKY group. Thus, in SHR myocardium, [Ca2+]i increased after isoproterenol, but inotropy failed to increase. Myosin isozymes were shifted toward the V3 isoform in both SHR groups; the V3 isoform was virtually 100% in papillary muscles from the SHR-F group. These changes may reflect events directly contributing to the development of heart failure or represent adaptive changes to chronic pressure overload and heart failure.
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PMID:Intracellular calcium transients in myocardium from spontaneously hypertensive rats during the transition to heart failure. 201 97

Intracellular Ca2+ release and reuptake are necessary for normal contraction and relaxation of the human heart. Intracellular Ca2+ transients were recorded with aequorin during isometric contraction of myocardium from patients with end-stage heart failure. In contrast to controls, contractions and Ca2+ transients of muscles from failing hearts were markedly prolonged, and the Ca2+ transients exhibited two distinct components. Muscles from the failing hearts showed a diminished capacity to restore a low resting Ca2+ level during diastole. These data obtained in actively contracting human myocardium suggest that intracellular Ca2+ handling is abnormal and might cause both systolic and diastolic dysfunction in heart failure. The inotropic effectiveness of drugs that act to increase intracellular levels of cyclic adenosine monophosphate (AMP), such as beta-adrenergic agonists and phosphodiesterase inhibitors, was markedly reduced in muscles from patients with heart failure. In contrast, the effectiveness of inotropic stimulation with drugs that act by cyclic AMP-independent mechanisms, such as the cardiotonic steroids and DPI 201-106, were preserved. Stimulation of intracellular cyclic AMP production by the adenylate cyclase activator forskolin restored the inotropic response to phosphodiesterase inhibitors. These studies indicate that an abnormality in cyclic AMP production may be a fundamental defect in patients with end-stage heart failure that may markedly diminish the effectiveness of agents that depend on generation of this nucleotide for a positive inotropic effect. Moreover, deficient production of cyclic AMP seems, at least in part, to account for the reversal of the force-frequency relation that characterizes failing myocardium. Of interest, direct measurement of total cellular cyclic AMP content and protein kinase activity did not reveal significant differences between the control and myopathic tissue, suggesting the presence in human ventricular muscle of physiologically distinct compartmentalized pools of cyclic AMP. Finally, changes in the sensitivity of the contractile apparatus to Ca2+ also seem to play an important role in the differential responsiveness to drugs of myopathic versus normal human myocardium.
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PMID:Abnormal intracellular calcium handling, a major cause of systolic and diastolic dysfunction in ventricular myocardium from patients with heart failure. 215 79

Alternans in heart is important as pulsus alternans in cardiac failure and electrophysiological alternans in myocardial ischemia. The explanation of this phenomenon is still unclear. We attempted to investigate the cellular mechanisms of alternans by measuring intracellular free calcium concentration [( Ca2+]i) with the photoprotein aequorin in isolated ferret papillary muscles. Tension and length were also recorded simultaneously. Transient mechanical alternans lasting five to 20 contractions could be reliably induced in this preparation by following a 30-second rest period with stimulation at a fast rate (2-4 Hz). Production of sustained mechanical alternans, which lasted longer than 20 contractions and could persist for several hundred contractions, required additional interventions, consisting of a lower temperature (25 degrees C), a lower external calcium concentration (1 mM), and a lower pH (6.91) than control conditions (0.33-0.5 Hz, 30 degrees C, 2 mM Ca2+, pH 7.36). Transient mechanical alternans was associated with transient in-phase alternation of aequorin light and, hence, [Ca2+]i. Sustained mechanical alternans was associated with sustained in-phase alternation of aequorin light as well as incomplete relaxation of tension. However, when muscles were switched from isometric to unloaded isotonic contraction, relaxation between stimuli was complete but contraction and the aequorin light signal continued to alternate. The addition of 10 mM caffeine or 10 microns ryanodine abolished transient and sustained mechanical alternans and also abolished the associated alternation of aequorin light. Commensurate with the action of ryanodine, which allows the sarcoplasmic reticulum to reaccumulate calcium to a limited extent after a period of rapid stimulation, sustained mechanical alternans sometimes reappeared in an attenuated form 30 to 50 contractions after the addition of ryanodine. These results demonstrate that incomplete muscle relaxation between beats need not be present for alternans to occur, and support the hypothesis that alternans is caused by intracellular calcium cycling involving the sarcoplasmic reticulum.
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PMID:Changes in intracellular calcium during mechanical alternans in isolated ferret ventricular muscle. 230

Intracellular Ca2+ release and reuptake are essential for contraction and relaxation of normal heart muscle. Intracellular Ca2+ transients were recorded with aequorin during isometric contraction of myocardium from patients with end-stage heart failure. In contrast to controls, contractions and Ca2+ transients of muscles from failing hearts were markedly prolonged, and the Ca2+ transients exhibited 2 distinct components. Muscles from failing hearts showed a diminished capacity to restore low resting Ca2+ levels during diastole. These experiments provide the first direct evidence from actively contracting human myocardium that intracellular Ca2+ handling is abnormal and may cause systolic and diastolic dysfunction in heart failure.
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PMID:Abnormal intracellular calcium handling in myocardium from patients with end-stage heart failure. 360 12

In clinical and experimental heart failure, the inotropic response to beta-adrenergic receptor stimulation is depressed. Therefore, non-beta-adrenergic mechanisms may assume increasing importance for summoning inotropic reserve in the failing heart. To test the integrity of the inotropic pathway mediated by alpha 1-adrenergic receptor stimulation in a model of chronic ischemic heart failure, we administered phenylephrine to noninfarcted left ventricular papillary muscles isolated from sham-operated rats (n = 10) and rats with large (> 40% left ventricular circumference) anterior myocardial infarctions (n = 9). Isometric force was monitored, and intracellular Ca2+ (Cai2+) transients were recorded with the bioluminescent protein aequorin. Compared with muscles from sham-operated rats, contractility of muscles from rats with postinfarction heart failure was depressed at extracellular Ca2+ concentrations between 0.5 and 3.0 mM. Phenylephrine produced comparable dose-dependent increases in developed tension (126 +/- 4 vs. 125 +/- 7% of baseline) and peak rate of tension rise (125 +/- 4 vs. 140 +/- 9% of baseline) in muscles from sham and infarcted rats, respectively. There was no significant change in the time course of the isometric twitch or in the time course or amplitude of the Cai2+ transient after phenylephrine administration in muscles from either group. No evidence of Cai2+ overload, as defined by spontaneous Ca2+ release, was observed during phenylephrine administration in muscles from normal or failing hearts. The density of alpha 1-adrenoceptors measured with [3H]prazosin binding in crude membranes isolated from noninfarcted left ventricular tissue was not different in control and infarcted hearts (48 +/- 5 vs. 53 +/- 4 fmol/mg protein). These data indicate that the positive inotropic effect of alpha-agonists may be preserved in chronic ischemic heart failure. In both normal and failing myocardium, the inotropic effects of alpha 1-adrenergic stimulation occurred with little or no increase in Cai2+ availability and no apparent adverse effects on myocardial relaxation. Therefore, agents that act by similar mechanisms may have certain therapeutic advantages over traditional inotropic agents in patients with heart failure.
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PMID:Inotropic effects of alpha 1-adrenergic agonists in myocardium from rats with postinfarction heart failure. 750 48

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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