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去污剂胶束激活的 BAK 和 MCL-1 异二聚化。

Heterodimerization of BAK and MCL-1 activated by detergent micelles.

机构信息

Department of Biochemistry, McGill University, Montreal, Quebec H3G 0B1, Canada.

出版信息

J Biol Chem. 2010 Dec 24;285(52):41202-10. doi: 10.1074/jbc.M110.144857. Epub 2010 Oct 29.

DOI:10.1074/jbc.M110.144857
PMID:21036904
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3003418/
Abstract

BAK is a key protein mediating mitochondrial outer membrane permeabilization; however, its behavior in the membrane is poorly understood. Here, we characterize the conformational changes in BAK and MCL-1 using detergents to mimic the membrane environment and study their interaction by in vitro pulldown experiments, size exclusion chromatography, titration calorimetry, and NMR spectroscopy. The nonionic detergent IGEPAL has little impact on the structure of MCL-1 but induces a conformational change in BAK, whereby its BH3 region is able to engage the hydrophobic groove of MCL-1. Although the zwitterionic detergent CHAPS induces only minor conformational changes in both proteins, it is still able to initiate heterodimerization. The complex of MCL-1 and BAK can be disrupted by a BID-BH3 peptide, which acts through binding to MCL-1, but a mutant peptide, BAK-BH3-L78A, with low affinity for MCL-1 failed to dissociate the complex. The mutation L78A in BAK prevented binding to MCL-1, thus demonstrating the essential role of the BH3 region of BAK in its regulation by MCL-1. Our results validate the current models for the activation of BAK and highlight the potential value of small molecule inhibitors that target MCL-1 directly.

摘要

BAK 是一种介导线粒体外膜通透性的关键蛋白,但它在膜中的行为还知之甚少。在这里,我们使用去污剂来模拟膜环境,研究 BAK 和 MCL-1 的构象变化,并通过体外下拉实验、尺寸排阻层析、滴定量热法和 NMR 光谱学研究它们的相互作用。非离子去污剂 IGEPAL 对 MCL-1 的结构几乎没有影响,但会诱导 BAK 发生构象变化,使其 BH3 区域能够与 MCL-1 的疏水槽结合。尽管两性离子去污剂 CHAPS 仅使两种蛋白质发生微小的构象变化,但它仍然能够引发异二聚化。MCL-1 和 BAK 的复合物可以被 BID-BH3 肽破坏,该肽通过与 MCL-1 结合发挥作用,但对 MCL-1 亲和力低的突变肽 BAK-BH3-L78A 未能解离复合物。BAK 中的突变 L78A 阻止了与 MCL-1 的结合,从而证明了 BAK 的 BH3 区域在其受 MCL-1 调节中的重要作用。我们的结果验证了 BAK 激活的现有模型,并强调了直接靶向 MCL-1 的小分子抑制剂的潜在价值。

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