Dissimilar mechanisms of cytochrome c release induced by octyl glucoside-activated BAX and by BAX activated with truncated BID

In the present study, we compared alkali-resistant BAX insertion into the outer mitochondrial membrane, mitochondrial remodeling, mitochondrial membrane potential changes, and cytochrome c (Cyt c) release from isolated brain mitochondria triggered by recombinant BAX oligomerized with 1% octyl glucoside (BAX_oligo) and by a combination of monomeric BAX (BAX_mono) and caspase 8-cleaved C-terminal fragment of recombinant BID (truncated BID, t^cBID). We also examined whether the effects induced by BAX_oligo or by BAX_mono activated with t^cBID depended on induction of the mitochondrial permeability transition. The results obtained in this study revealed that t^cBID plus BAX_mono produced BAX insertion and Cyt c release without overt changes in mitochondrial morphology. On the contrary, treatment of mitochondria with BAX_oligo resulted in BAX insertion and Cyt c release, which were accompanied by gross distortion of mitochondrial morphology. The effects of BAX_oligo could be at least partially suppressed by mitochondrial depolarization. The effects of t^cBID plus BAX_mono were insensitive to depolarization. BAX_oligo produced similar BAX insertion, mitochondrial remodeling, and Cyt c release in KCl- and in N-methyl-d-glucamine-based incubation media indicating a non-essential role for K⁺ influx into mitochondria in these processes. A combination of cyclosporin A and ADP, inhibitors of the mitochondrial permeability transition, attenuated Cyt c release, mitochondrial remodeling, and depolarization induced by BAX_oligo, but failed to influence the effects produced by t^cBID plus BAX_mono. Thus, our results suggest a significant difference in the mechanisms of the outer mitochondrial membrane permeabilization and Cyt c release induced by detergent-oligomerized BAX_oligo and by BAX activated with t^cBID.