MICU1-MICU2 复合物的结构揭示了线粒体钙单向转运体的调节机制。

The structure of the MICU1-MICU2 complex unveils the regulation of the mitochondrial calcium uniporter.

机构信息

College of Chemistry, Beijing Normal University, Beijing, China.

Beijing Key Laboratory of Gene Resource and Molecular Development, College of Life Sciences, Beijing Normal University, Beijing, China.

出版信息

EMBO J. 2020 Oct 1;39(19):e104285. doi: 10.15252/embj.2019104285. Epub 2020 Aug 13.

DOI:10.15252/embj.2019104285

PMID:32790952

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7527922/

Abstract

The MICU1-MICU2 heterodimer regulates the mitochondrial calcium uniporter (MCU) and mitochondrial calcium uptake. Herein, we present two crystal structures of the MICU1-MICU2 heterodimer, in which Ca -free and Ca -bound EF-hands are observed in both proteins, revealing both electrostatic and hydrophobic interfaces. Furthermore, we show that MICU1 interacts with EMRE, another regulator of MCU, through a Ca -dependent alkaline groove. Ca binding strengthens the MICU1-EMRE interaction, which in turn facilitates Ca uptake. Conversely, the MICU1-MCU interaction is favored in the absence of Ca , thus inhibiting the channel activity. This Ca -dependent switch illuminates how calcium signals are transmitted from regulatory subunits to the calcium channel and the transition between gatekeeping and activation channel functions. Furthermore, competition with an EMRE peptide alters the uniporter threshold in resting conditions and elevates Ca accumulation in stimulated mitochondria, confirming the gatekeeper role of the MICU1-MICU2 heterodimer. Taken together, these structural and functional data provide new insights into the regulation of mitochondrial calcium uptake.

摘要

MICU1-MICU2 异二聚体调节线粒体钙单向转运体（MCU）和线粒体钙摄取。在此，我们呈现了 MICU1-MICU2 异二聚体的两个晶体结构，在这两个蛋白质中观察到了 Ca2+- 游离和 Ca2+- 结合的 EF 手，揭示了静电和疏水界面。此外，我们表明，MICU1 通过依赖于 Ca2+的碱性沟与另一个 MCU 调节剂 EMRE 相互作用。Ca2+结合增强了 MICU1-EMRE 相互作用，从而促进 Ca2+摄取。相反，在没有 Ca2+的情况下，MICU1-MCU 相互作用更有利，从而抑制通道活性。这种 Ca2+依赖性开关阐明了钙信号如何从调节亚基传递到钙通道，以及门控和激活通道功能之间的转换。此外，与 EMRE 肽的竞争在静息条件下改变了单向转运体的阈值，并增加了受刺激的线粒体中的 Ca2+积累，证实了 MICU1-MICU2 异二聚体的门控作用。总之，这些结构和功能数据为线粒体钙摄取的调节提供了新的见解。

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本文引用的文献

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