Abstract
Bid is a Bcl-2 family protein that promotes apoptosis by activating Bax and eliciting mitochondrial outer membrane permeabilization (MOMP). Full-length Bid is cleaved in response to apoptotic stimuli into two fragments, p7 and tBid (p15), that are held together by strong hydrophobic interactions until the complex binds to membranes. The detailed mechanism(s) of fragment separation including tBid binding to membranes and release of the p7 fragment to the cytoplasm remain unclear. Using liposomes or isolated mitochondria with fluorescently labeled proteins at physiological concentrations as in vitro models, we report that the two components of the complex quickly separate upon interaction with a membrane. Once tBid binds to the membrane, it undergoes slow structural rearrangements that result in an equilibrium between two major tBid conformations on the membrane. The conformational change of tBid is a prerequisite for interaction with Bax and is, therefore, a novel step that can be modulated to promote or inhibit MOMP. Using automated high-throughput image analysis in cells, we show that down-regulation of Mtch2 causes a significant delay between tBid and Bax relocalization in cells. We propose that by promoting insertion of tBid via a conformational change at the mitochondrial outer membrane, Mtch2 accelerates tBid-mediated Bax activation and MOMP. Thus the interaction of Mtch2 and tBid is a potential target for therapeutic control of Bid initiated cell death.
Highlights
TBid is a Bcl-2 family protein that promotes apoptosis at the mitochondria
We show that the conformational change in tBid after binding to the membrane is the specific step that is accelerated by Mtch2 on the mitochondrial outer membrane (MOM)
The tBid Fragment Undergoes a Conformational Change after Binding to Membranes—Given that the difference in tBid and cBid activation of mitochondrial outer membrane permeabilization (MOMP) is not explained by the separation of the p71⁄7tBid fragments, we used a protein to membrane fluorescent resonance energy transfer (FRET) assay to measure the rate at which proteins integrated into liposome membranes [11]
Summary
Bid cleaved by caspase 8; N-terminal and C-terminal 22 fragments remain bound due to hydrophobic interactions; activator to Bax. Despite the critical role of Bid in apoptosis, the detailed mechanism of the events that follow the cleavage of Bid until it assumes its fully active form at the MOM, including how membrane binding may participate in this process, remains to be understood. To address these questions, we used fluorescence spectroscopy to investigate the mechanism of activation of Bid using a cell-free system with either isolated mitochondria or biomimetic liposomes.
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