Abstract
Low concentrations of digitonin disrupt the sarcolemma of adult rat heart myocytes selectively and completely. When the digitonin lysis is carried out in the presence of 10 mM Mg-ATP, the permeabilized cells retain the rod-cell morphology typical of heart cells in situ and show spontaneous phasic contractions. The rate of contraction is a function of the free Ca2+ concentration from a pCa of 7.2 to 5.2. Higher levels of free Ca2+ result in hypercontracture of the myocytes into round cells with characteristically distorted morphology. The sarcoplasmic reticulum of digitonin-lysed myocytes takes up Ca2+ in an ATP-dependent reaction that is inhibited and reversed by caffeine and strongly enhanced by procaine or ruthenium red. The Ca2+ accumulation has a Km of 0.6 microM Ca2+, depends on Pi (Km of 13 mM), and is strongly inhibited by bicarbonate ion. The hypercontracture of digitonin-lysed myocytes is a function of both the pCa and the Mg-ATP concentration of the suspending medium. Hypercontracture requires ATP. Hypercontracture due to Ca2+ overload occurs at lower Ca2+ concentrations when Mg-ATP is decreased from 10 to 1 mM. However, at low concentrations of Mg-ATP (in the range from 1 to 10 microM), hypercontracture also occurs and is essentially Ca2+-independent. Since hypercontracture of heart myocytes appears analogous to the formation of contraction bands in situ, these observations may be relevant to the phenomena of oxygen paradox and of Ca2+ paradox in intact myocardial tissue.
Published Version
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