| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 2041967 | Cell Reports | 2013 | 12 Pages |
•A BH3 mimetic displaces BAK from BCL-XL consistent with the indirect activation model•Released BAK undergoes a series of distinct independent conformational changes•Oligomerization is not the final step in the activation cascade•BIM promotes pre-pore-to-pore conversion supporting the “direct” activation model
SummaryBAK activation represents a key step during apoptosis, but how it converts into a mitochondria-permeabilizing pore remains unclear. By further delineating the structural rearrangements involved, we reveal that BAK activation progresses through a series of independent steps: BH3-domain exposure, N-terminal change, oligomerization, and membrane insertion. Employing a “BCL-XL-addiction” model, we show that neutralization of BCL-XL by the BH3 mimetic ABT-737 resulted in death only when cells were reconstituted with BCL-XL:BAK, but not BCL-2/ BCL-XL:BIM complexes. Although this resembles the indirect model, release of BAK from BCL-XL did not result in spontaneous adoption of the pore conformation. Commitment to apoptosis required association of the direct activator BIM with oligomeric BAK promoting its conversion to a membrane-inserted pore. The sequential nature of this cascade provides multiple opportunities for other BCL-2 proteins to interfere with or promote BAK activation and unites aspects of the indirect and direct activation models.
Graphical AbstractFigure optionsDownload full-size imageDownload as PowerPoint slide
