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Structural basis of BAK activation in mitochondrial apoptosis initiation

Geetika Singh, Cristina D. Guibao, J. Seetharaman, Anup Aggarwal, Christy R. Grace, Dan E. McNamara, Sivaraja Vaithiyalingam, M. Brett Waddell, Tudor Moldoveanu

2022Nature Communications35 citationsDOIOpen Access PDF

Abstract

BCL-2 proteins regulate mitochondrial poration in apoptosis initiation. How the pore-forming BCL-2 Effector BAK is activated remains incompletely understood mechanistically. Here we investigate autoactivation and direct activation by BH3-only proteins, which cooperate to lower BAK threshold in membrane poration and apoptosis initiation. We define in trans BAK autoactivation as the asymmetric "BH3-in-groove" triggering of dormant BAK by active BAK. BAK autoactivation is mechanistically similar to direct activation. The structure of autoactivated BAK BH3-BAK complex reveals the conformational changes leading to helix α1 destabilization, which is a hallmark of BAK activation. Helix α1 is destabilized and restabilized in structures of BAK engaged by rationally designed, high-affinity activating and inactivating BID-like BH3 ligands, respectively. Altogether our data support the long-standing hit-and-run mechanism of BAK activation by transient binding of BH3-only proteins, demonstrating that BH3-induced structural changes are more important in BAK activation than BH3 ligand affinity.

Topics & Concepts

Cell biologyEffectorChemistryMitochondrionApoptosisHelix (gastropod)BiophysicsBiologyBiochemistryEcologySnailCell death mechanisms and regulationNuclear Structure and FunctionRNA Research and Splicing