Zheng Yuan, Mark F van Delft, Mark Xiang Li, Fransisca Sumardy, Brian J Smith, David C S Huang, Guillaume Lessene, Yelena Khakam, Ruitao Jin, Sitong He, Nicholas A Smith, Richard W Birkinshaw, Peter E Czabotar, Grant Dewson
PLoS biology 2024 MayBAK and BAX execute intrinsic apoptosis by permeabilising the mitochondrial outer membrane. Their activity is regulated through interactions with pro-survival BCL-2 family proteins and with non-BCL-2 proteins including the mitochondrial channel protein VDAC2. VDAC2 is important for bringing both BAK and BAX to mitochondria where they execute their apoptotic function. Despite this important function in apoptosis, while interactions with pro-survival family members are well characterised and have culminated in the development of drugs that target these interfaces to induce cancer cell apoptosis, the interaction between BAK and VDAC2 remains largely undefined. Deep scanning mutagenesis coupled with cysteine linkage identified key residues in the interaction between BAK and VDAC2. Obstructive labelling of specific residues in the BH3 domain or hydrophobic groove of BAK disrupted this interaction. Conversely, mutating specific residues in a cytosol-exposed region of VDAC2 stabilised the interaction with BAK and inhibited BAK apoptotic activity. Thus, this VDAC2-BAK interaction site can potentially be targeted to either inhibit BAK-mediated apoptosis in scenarios where excessive apoptosis contributes to disease or to promote BAK-mediated apoptosis for cancer therapy. Copyright: © 2024 Yuan et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
Zheng Yuan, Mark F van Delft, Mark Xiang Li, Fransisca Sumardy, Brian J Smith, David C S Huang, Guillaume Lessene, Yelena Khakam, Ruitao Jin, Sitong He, Nicholas A Smith, Richard W Birkinshaw, Peter E Czabotar, Grant Dewson. Key residues in the VDAC2-BAK complex can be targeted to modulate apoptosis. PLoS biology. 2024 May;22(5):e3002617
PMID: 38696533
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