Abstract
Rat cardiac membrane vesicles enriched in biochemical markers of the junctional region of sarcoplasmic reticulum (SR) and exhibiting ruthenium red-sensitive rapid Ca2+ release have been prepared. Doxorubicin and seven congeners are shown to enhance the binding of [3H]ryanodine to the ryanodine receptor with a strong structural requirement. Doxorubicin enhances the binding of [3H]ryanodine to SR membranes and soluble receptor preparations and induces Ca2+ release from SR vesicles in a highly Ca2(+)-dependent manner, suggesting that anthraquinones promote the open state of the junctional Ca2+ release channel by increasing the affinity of the Ca2+ activator site for Ca2+. Doxorubicin reduces the Kd of [3H]ryanodine binding solely by enhancing the rat of association. Caffeine competes for the same site with anthraquinones, because the caffeine-activated binding of [3H]ryanodine is inhibited by doxorubicin and vice versa. The acute effect of doxorubicin on the cardiac Ca2+ release channel is fully reversible; however, long term treatment (up to 24 hr) with doxorubicin increases the sensitivity of the preparation to subsequent acute challenge with doxorubicin. The thiol-reductive agent dithiothreitol enhances, whereas the reactive disulfide 4,4'-dithiodipyridine reduces, the doxorubicin-enhanced binding of [3H]ryanodine. These results demonstrate that the acute and chronic cardiotoxicity of anthraquinones may be accounted for by a receptor-mediated mechanism. Our findings suggest that the chronic effects observed with the clinical use of anthraquinones may be the result of a receptor-mediated shift in the redox equilibrium of allosteric thiols at the ryanodine receptor complex, which in turn leads to long term sensitization of the Ca2+ release channel.
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