人源 BNIP5 和 PXT1 的肽段以及促凋亡 BAK 的非天然结合物可以直接激活或抑制 BAK 介导的膜通透性。

Peptides from human BNIP5 and PXT1 and non-native binders of pro-apoptotic BAK can directly activate or inhibit BAK-mediated membrane permeabilization.

机构信息

Department of Biology, Massachusetts Institute of Technology, Cambridge, MA, USA.

Laboratory of Systems Pharmacology, Harvard Program in Therapeutic Science, Department of Systems Biology, Harvard Medical School, Boston, MA, USA; Program in Molecular and Integrative Physiological Sciences Program, Harvard T.H. Chan School of Public Health, Boston, MA, USA; John B. Little Center for Radiation Sciences, Harvard T.H. Chan School of Public Health, Boston, MA, USA.

出版信息

Structure. 2023 Mar 2;31(3):265-281.e7. doi: 10.1016/j.str.2023.01.001. Epub 2023 Jan 26.

DOI:10.1016/j.str.2023.01.001

PMID:36706751

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9992319/

Abstract

Apoptosis is important for development and tissue homeostasis, and its dysregulation can lead to diseases, including cancer. As an apoptotic effector, BAK undergoes conformational changes that promote mitochondrial outer membrane disruption, leading to cell death. This is termed "activation" and can be induced by peptides from the human proteins BID, BIM, and PUMA. To identify additional peptides that can regulate BAK, we used computational protein design, yeast surface display screening, and structure-based energy scoring to identify 10 diverse new binders. We discovered peptides from the human proteins BNIP5 and PXT1 and three non-native peptides that activate BAK in liposome assays and induce cytochrome c release from mitochondria. Crystal structures and binding studies reveal a high degree of similarity among peptide activators and inhibitors, ruling out a simple function-determining property. Our results shed light on the vast peptide sequence space that can regulate BAK function and will guide the design of BAK-modulating tools and therapeutics.

摘要

细胞凋亡对于发育和组织稳态至关重要，其失调可导致包括癌症在内的疾病。作为凋亡效应物，BAK 经历构象变化，促进线粒体外膜破裂，导致细胞死亡。这被称为“激活”，可以被来自人类蛋白 BID、BIM 和 PUMA 的肽诱导。为了鉴定可调节 BAK 的其他肽，我们使用计算蛋白设计、酵母表面展示筛选和基于结构的能量评分来鉴定 10 种不同的新结合物。我们从人类蛋白 BNIP5 和 PXT1 以及三种非天然肽中发现了可在脂质体测定中激活 BAK 并诱导细胞色素 c 从线粒体释放的肽。晶体结构和结合研究揭示了肽激活剂和抑制剂之间具有高度相似性，排除了简单的功能决定性质。我们的结果阐明了可调节 BAK 功能的巨大肽序列空间，并将指导 BAK 调节工具和治疗剂的设计。

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