Apoptosis is a common cell death program that is important in human health and disease. Signaling in apoptosis is largely driven through protein–protein interactions. The BCL-2 family proteins function in protein–protein interactions as key regulators of mitochondrial poration, the process that initiates apoptosis through the release of cytochrome c, which activates the apoptotic caspase cascade leading to cellular demolition. The BCL-2 pore-forming proteins BAK and BAX are the key executors of mitochondrial poration. We review the state of knowledge of protein–protein and protein–lipid interactions governing the apoptotic function of BAK and BAX, as determined through X-ray crystallography and NMR spectroscopy studies. BAK and BAX are dormant, globular α-helical proteins that participate in protein–protein interactions with other pro-death BCL-2 family proteins, transforming them into active, partially unfolded proteins that dimerize and associate with and permeabilize mitochondrial membranes. We compare the protein–protein interactions observed in high-resolution structures with those derived in silico by AlphaFold, making predictions based on combining experimental and in silico approaches to delineate the structural basis for novel protein–protein interaction complexes of BCL-2 family proteins.
Protein–protein and protein–lipid interactions of pore-forming BCL-2 family proteins in apoptosis initiation
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Giridhar Sekar, Adedolapo Ojoawo, Tudor Moldoveanu; Protein–protein and protein–lipid interactions of pore-forming BCL-2 family proteins in apoptosis initiation. Biochem Soc Trans 2022; BST20220323. doi: https://doi.org/10.1042/BST20220323
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