Apoptosis is induced by decline of mitochondrial ATP synthesis in erythroleukemia cells

Apoptosis is shown to occur in erythroleukemia cells after incubation with oligomycin, which specifically inactivates mitochondrial ATPsynthase. Energy charge and ATP content decline very early during the treatment. Mitochondrial respiration is dramatically decreased while lactate production results not modified. DNA fragmentation progressively increases starting one hour following oligomycin removal, while loss of plasma membrane integrity occurs with a much slower time-course. Similar effects are also shown in differentiation-induced erythroleukemia cells exposed to H2O2. In this case, evidence is provided for the involvement of (OH)-O-. generated by iron-catalyzed reactions in the mechanism by which H2O2 impairs energy charge and induces apoptosis. We hypothesize a possible role played by interference with mitochondrial bioenergy through inactivation of mitochondrial ATPsynthase in the apoptosis triggered by oxidative stress under conditions in which cells undergo an iron overload-like status, as occurs in differentiation-induced erythroleukemia cells. These results point to the impairment of mitochondrial ATP synthesis and of energy charge as common early events critical for the execution of apoptosis, independently by the stimuli used for its induction: the specific inhibitor of mitochondrial ATPsynthase or H2O2 exposure combined with the iron-enhancing differentiating treatment. (C) 2003 Elsevier Inc.