Dynamic reconfiguration of pro‐apoptotic BAK on membranes.

BAK and BAX, the effectors of intrinsic apoptosis, each undergo major reconfiguration to an activated conformer that self‐associates to damage mitochondria and cause cell death. However, the dynamic structural mechanisms of this reconfiguration in the presence of a membrane have yet to be fully elucidated. To explore the metamorphosis of membrane‐bound BAK, we employed hydrogen‐deuterium exchange mass spectrometry (HDX‐MS). The HDX‐MS profile of BAK on liposomes comprising mitochondrial lipids was consistent with known solution structures of inactive BAK. Following activation, HDX‐MS resolved major reconfigurations in BAK. Mutagenesis guided by our HDX‐MS profiling revealed that the BCL‐2 homology (BH) 4 domain maintains the inactive conformation of BAK, and disrupting this domain is sufficient for constitutive BAK activation. Moreover, the entire N‐terminal region preceding the BAK oligomerisation domains became disordered post‐activation and remained disordered in the activated oligomer. Removal of the disordered N‐terminus did not impair, but rather slightly potentiated, BAK‐mediated membrane permeabilisation of liposomes and mitochondria. Together, our HDX‐MS analyses reveal new insights into the dynamic nature of BAK activation on a membrane, which may provide new opportunities for therapeutic targeting. SYNOPSIS: While BAK is a known executioner protein in apoptotic cell death, how it changes conformation to form oligomeric mitochondrial pores to kill cells remains unclear. Hydrogen‐deuterium exchange mass spectrometry and site‐directed mutagenesis now resolve key events in BAK activation as it occurs on membranes and mitochondria. Hydrogen‐deuterium exchange mass spectrometry provides new insight into conformation changes of BAK on a mitochondria‐like membrane.The BAK BH4 domain constrains BAK activity in the absence of a death stimulus.During BAK activation and oligomerisation, amino acids preceding the BH3 domain become exposed and disordered.The disordered N‐terminus is not required for BAK to permeabilise membranes and mediate cytochrome c release and may rather inhibit it. [ABSTRACT FROM AUTHOR]