INTRACELLULAR ATP IS REQUIRED FOR ACTINOMYCIN D-INDUCED APOPTOTIC CELL-DEATH IN HELA-CELLS

In the present report, we demonstrate that reduction of cellular ATP c ontent with antimycin A blocks actinomycin D-induced apoptotic cell de ath in HeLa cells. Compared to cells (similar to 80%) treated with act inomycin D (1 mu g/ml; 48 h) alone in glucose-containing medium, a muc h smaller percentage of cells (similar to 20%) treated with actinomyci n D in the presence of antimycin A in glucose-free medium shows morpho logical characteristic of apoptosis. ATP-depleted cells with or withou t actinomycin D treatment, on the other hand, die necrotically. In cel ls under actinomycin D short exposure treatment (1 mu g/ml; 1 h), apop tosis occurs when cellular ATP content is rapidly recovered after the removal of antimycin A and resupplementation of glucose-containing med ium. In the incubation of isolated Triton-permeabilized cells with ATP (>0.5 mM), apoptotic nuclei become abundant 4 h after ATP treatment. These results implicate the requirement of ATP for the induction of ap optosis.