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Mechanisms for Intracellular Calcium Regulation in Heart : I. Stopped-Flow Measurements of Ca++ Uptake by Cardiac Mitochondria
Authors:Antonio Scarpa and Pierpaolo Graziotti
Affiliation:From the Johnson Research Foundation, University of Pennsylvania School of Medicine, Philadelphia, Pennsylvania 19174
Abstract:Initial velocities of energy-dependent Ca++ uptake were measured by stopped-flow and dual-wavelength techniques in mitochondria isolated from hearts of rats, guinea pigs, squirrels, pigeons, and frogs. The rate of Ca++ uptake by rat heart mitochondria was 0.05 nmol/mg/s at 5 µM Ca++ and increased sigmoidally to 8 nmol/mg/s at 200 µM Ca++. A Hill plot of the data yields a straight line with slope n of 2, indicating a cooperativity for Ca++ transport in cardiac mitochondria. Comparable rates of Ca++ uptake and sigmoidal plots were obtained with mitochondria from other mammalian hearts. On the other hand, the rates of Ca++ uptake by frog heart mitochondria were higher at any Ca++ concentrations. The half-maximal rate of Ca++ transport was observed at 30, 60, 72, 87, 92 µM Ca++ for cardiac mitochondria from frog, squirrel, pigeon, guinea pig, and rat, respectively. The sigmoidicity and the high apparent Km render mitochondrial Ca++ uptake slow below 10 µM. At these concentrations the rate of Ca++ uptake by cardiac mitochondria in vitro and the amount of mitochondria present in the heart are not consistent with the amount of Ca++ to be sequestered in vivo during heart relaxation. Therefore, it appears that, at least in mammalian hearts, the energy-linked transport of Ca++ by mitochondria is inadequate for regulating the beat-to-beat Ca++ cycle. The results obtained and the proposed cooperativity for mitochondrial Ca++ uptake are discussed in terms of physiological regulation of intracellular Ca++ homeostasis in cardiac cells.
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