BAK和BAX强效选择性结合剂的计算设计

Computational design of potent and selective binders of BAK and BAX.

作者信息

Berger Stephanie, Lee Erinna F, Harris Tiffany J, Tran Sharon, Bera Asim K, Arguinchona Lauren, Kang Alex, Sankaran Banumathi, Kasapgil Sila, Miller Michelle S, Smyth Sean, Lutfi Mariam, Uren Rachel T, Kluck Ruth M, Colman Peter M, Fairlie Walter D, Czabotar Peter E, Baker David, Birkinshaw Richard W

机构信息

Department of Biochemistry, University of Washington, Seattle, WA 98195, USA.

Department of Bioengineering, University of Washington, Seattle, WA 98195, USA.

出版信息

Sci Adv. 2025 Sep 5;11(36):eadt4170. doi: 10.1126/sciadv.adt4170.

DOI:10.1126/sciadv.adt4170

PMID:40911686

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12412652/

Abstract

Potent and selective binders of the key proapoptotic proteins BAK and BAX have not been described. We use computational protein design to generate high affinity binders of BAK and BAX with greater than 100-fold specificity for their target. Both binders activate their targets when at low concentration, driving pore formation, but inhibit membrane permeabilization when in excess. Crystallography shows that the BAK binder induces BAK unfolding, exposing the α6 helix and BH3 domain. Together, these data suggest that upon binding, BAK or BAX unfold; at high binder concentrations, self-association of the partially folded BAK or BAX proteins is blocked and the membrane remains intact, whereas at low concentrations, dimers form, and the membrane ruptures. Our designed binders modulate apoptosis via direct, specific interactions with BAK and BAX and reveal that for therapeutic strategies targeting BAK and BAX, inhibition requires saturating binder concentrations at the site of action.

摘要

尚未发现对关键促凋亡蛋白BAK和BAX具有强效且选择性的结合剂。我们运用计算蛋白质设计来生成对BAK和BAX具有高亲和力的结合剂，对其靶标的特异性大于100倍。两种结合剂在低浓度时激活其靶标，促使孔道形成，但在过量时抑制膜通透化。晶体学表明，BAK结合剂诱导BAK展开，暴露出α6螺旋和BH3结构域。综合这些数据表明，结合后，BAK或BAX会展开；在高结合剂浓度下，部分折叠的BAK或BAX蛋白的自缔合被阻断，膜保持完整，而在低浓度下，二聚体形成，膜破裂。我们设计的结合剂通过与BAK和BAX的直接、特异性相互作用来调节细胞凋亡，并揭示对于靶向BAK和BAX的治疗策略，抑制作用需要在作用位点达到饱和结合剂浓度。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2371/12412652/2c471752e264/sciadv.adt4170-f1.jpg

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BAK和BAX强效选择性结合剂的计算设计

Computational design of potent and selective binders of BAK and BAX.

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