In severe human heart failure, an increase in frequency of stimulations is accompanied by a reduced force of contraction in vivo and in vitro. This contrasts the findings in nonfailing human hearts. To investigate influences of inotropic stimulation on the force-frequency relationship in human myocardium, the effects of the cAMP-independent positive inotropic agents ouabain (Na+/K(+)-ATPase inhibitor) and BDF 9148 (Na(+)-channel modulator) as well as of the beta-adrenoceptor agonist isoprenaline on the force-frequency relationship in electrically driven left ventricular papillary muscle strips from nonfailing and terminally failing human myocardium were studied. In nonfailing myocardium, force of contraction increased following an increase in stimulation frequency, whereas in failing human myocardium force of contraction gradually declined following an increase in stimulation frequency. Moderate stimulation of contractility by isoprenaline reversed the negative force-frequency relationship in failing myocardium and preserved the positive force-frequency relationship in nonfailing myocardium. In the presence of ouabain and BDF 9148 the positive force-frequency relationship was completely restored in failing myocardium. In contrast, in the presence of high concentrations of isoprenaline the former positive force-frequency relationship became negative even in nonfailing myocardium. The negative force-frequency relationship in failing human myocardium is accompanied by alterations in the intracellular Ca(2+)-homeostasis. The latter may be due to an impaired function of the sarcoplasmic reticulum (SR) in failing human myocardium. Therefore, the activity of the SR-Ca(2+)-ATPase (SERCA2) of crude membrane preparations was investigated and was significantly reduced in failing compared to nonfailing human myocardium. It is concluded that the negative force-frequency relationship may be due to alterations in the intracellular Ca(2+)-handling caused by an impaired function of the SERCA2 in failing human myocardium. The beneficial effects of cAMP-increasing agents on the force-frequency relationship in failing human hearts could result from an enhanced phosphorylation status of phospholamban in the presence of beta-adrenoceptor-stimulation. The effect of the [Na+]i-modulating agents BDF 9148 and ouabain demonstrates that the intracellular Na(+)-homeostasis influences intracellular Ca(2+)-handling as well. Differences observed in failing compared to nonfailing myocardium may be due to an altered expression or function of the Na+/Ca(2+)-exchanger, Na(+)-channels or the Na+/K(+)-ATPase in addition to the blunted activity of the SERCA2 in failing myocardium.
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