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  • Title: Regional expression and functional characterization of the L-type Ca2+-channel in myocardium from patients with end-stage heart failure and in non-failing human hearts.
    Author: Schwinger RH, Hoischen S, Reuter H, Hullin R.
    Journal: J Mol Cell Cardiol; 1999 Jan; 31(1):283-96. PubMed ID: 10072735.
    Abstract:
    The purpose of the present study was to investigate the expression and functional relevance of sarcolemmal L-type Ca2+-channels in failing and non-failing human myocardium. The protein expression of sarcolemmal L-type Ca2+-channels was determined with 3H-(+)-PN 200-110-binding experiments and Western blot analysis using a specific antibody against the alpha1-subunit in membrane preparations of ventricular and atrial myocardium from both failing (n = 15) and non-failing hearts (n = 8). The gene expression of the ion conducting pore of the L-type Ca2+-channel was examined with Northern blot technique in human failing and non-failing RNA. For normalization the RNA expression of calsequestrin was used. In electrically driven ventricular papillary muscle strips and auricular trabeculae, the responses to nifedipine and Ca2+ as parameters of myocardial function were studied. The protein expression as measured by 3H-(+)-PN 200-110-binding (Bmax) and Western Blot analysis with calsequestrin as reference was similar in left ventricular failing and non-failing myocardium. However, both were reduced in atrial compared to ventricular tissue in failing and non-failing hearts. The KD remained unchanged. Calsequestrin levels were unaltered in failing and non-failing hearts. The gene expression of the alpha1-subunit was similar in human failing and non-failing hearts. The L-type Ca2+-channel antagonist nifedipine reduced force of contraction with the same potency and efficiency in ventricular failing and non-failing myocardium. In contrast, the potency of nifedipine was higher in atrial than in ventricular tissue. Consistently, atrial myocardium from patients with dilated cardiomyopathy was more sensitive towards Ca2+ than those of the control group. In conclusion, the altered Ca2+-homeostasis in failing human myocardium may be less due to changes in sarcolemmal L-type Ca2+-channel expression or function than due to an altered intracellular Ca2+-handling.
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