Structure and mechanism of the mitochondrial calcium transporter NCLX
Minrui Fan, Chen-Wei Tsai, Jinru Zhang, Jianxiu Zhang, Aswini R. Krishnan, Tsung‐Yun Liu, Yu-Lun Huang, Deniz Aydın, Siyuan Du, Briana L. Sobecks, Madison Rodriguez, Andrew H. Reiter, Carolyn R. Bertozzi, Ron O. Dror, Ming-Feng Tsai, Liang Feng
Abstract
Abstract As a key mitochondrial Ca 2+ transporter, NCLX regulates intracellular Ca 2+ signalling and vital mitochondrial processes 1–3 . The importance of NCLX in cardiac and nervous-system physiology is reflected by acute heart failure and neurodegenerative disorders caused by its malfunction 4–9 . Despite substantial advances in the field, the transport mechanisms of NCLX remain unclear. Here we report the cryo-electron microscopy structures of NCLX, revealing its architecture, assembly, major conformational states and a previously undescribed mechanism for alternating access. Functional analyses further reveal an unexpected transport function of NCLX as a H + /Ca 2+ exchanger, rather than as a Na + /Ca 2+ exchanger as widely believed 1 . These findings provide critical insights into mitochondrial Ca 2+ homeostasis and signalling, offering clues for developing therapies to treat diseases related to abnormal mitochondrial Ca 2+ .