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. 2025 Aug;27(8):1301-1310.
doi: 10.1038/s41556-025-01721-x. Epub 2025 Jul 21.

TMEM65 functions as the mitochondrial Na+/Ca2+ exchanger

Jim Lu Zhang #  1   2 Yu-Chen Chang #  3   4 Po-Hsuan Lai  3   4 Han-I Yeh  4   5 Chen-Wei Tsai  3   4 Yu-Lun Huang  3   4 Tsung-Yun Liu  3   4 I-Chi Lee  3   4 North Foulon  3 Yan Xu  1 Bing Rao  1 Hsiu-Man Shih  4 Yung-Chi Tu  3   4 Andres V Reyes  6 Shou-Ling Xu  6 Liang Feng  7 Ming-Feng Tsai  8   9
Affiliations

TMEM65 functions as the mitochondrial Na+/Ca2+ exchanger

Jim Lu Zhang et al. Nat Cell Biol. 2025 Aug.

Abstract

Mitochondria export Ca2+ via Na+/Ca2+ exchange machinery (mito-NCX) to regulate intracellular Ca2+ signalling and mitochondrial Ca2+ homeostasis. TMEM65 has recently been implicated as essential for mito-NCX, but its mechanisms and roles remain unclear. Here we show that TMEM65 depletion severely impairs mito-NCX. TMEM65 is highly expressed in the heart and brain but absent in the liver, correlating with mito-NCX activity in these tissues. Biochemical and functional analyses reveal that TMEM65 forms a homodimer, containing plausible ion-coordinating residues critical for function. Heterologous expression of TMEM65 induces Na+/Ca2+ exchange in cells lacking native mito-NCX activity. Moreover, purified, liposome-reconstituted TMEM65 exhibits key mito-NCX features. We further identify the binding site for CGP-37157, a potent, widely used mito-NCX inhibitor. Finally, TMEM65 deletion elevates mitochondrial Ca2+ and primes mitochondria to permeability transition. These findings firmly establish TMEM65 as the protein mediating mito-NCX, offering a new therapeutic target for diseases associated with mitochondrial Ca2+ dysregulation.

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Conflict of interest statement

Competing interests: The authors declare no competing interests.

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