NME3 binds to phosphatidic acid and mediates PLD6-induced mitochondrial tethering

You An Su; Hsin Yi Chiu; Yu Chen Chang; Chieh Ju Sung; Chih Wei Chen; Reika Tei; Xuang Rong Huang; Shao Chun Hsu; Shan Shan Lin; Hsien Chu Wang; Yu Chun Lin; Jui Cheng Hsu; Hermann Bauer; Yuxi Feng; Jeremy M. Baskin; Zee Fen Chang; Ya Wen Liu

doi:10.1083/jcb.202301091

NME3 binds to phosphatidic acid and mediates PLD6-induced mitochondrial tethering

You An Su, Hsin Yi Chiu, Yu Chen Chang, Chieh Ju Sung, Chih Wei Chen, Reika Tei, Xuang Rong Huang, Shao Chun Hsu, Shan Shan Lin, Hsien Chu Wang, Yu Chun Lin, Jui Cheng Hsu, Hermann Bauer, Yuxi Feng, Jeremy M. Baskin, Zee Fen Chang^*, Ya Wen Liu^*

^*Corresponding author for this work

Research output: Contribution to journal › Journal Article › peer-review

14 Scopus citations

Abstract

Mitochondria are dynamic organelles regulated by fission and fusion processes. The fusion of membranes requires elaborative coordination of proteins and lipids and is particularly crucial for the function and quality control of mitochondria. Phosphatidic acid (PA) on the mitochondrial outer membrane generated by PLD6 facilitates the fusion of mitochondria. However, how PA promotes mitochondrial fusion remains unclear. Here, we show that a mitochondrial outer membrane protein, NME3, is required for PLD6-induced mitochondrial tethering or clustering. NME3 is enriched at the contact interface of two closely positioned mitochondria depending on PLD6, and NME3 binds directly to PA-exposed lipid packing defects via its N-terminal amphipathic helix. The PA binding function and hexamerization confer NME3 mitochondrial tethering activity. Importantly, nutrient starvation enhances the enrichment efficiency of NME3 at the mitochondrial contact interface, and the tethering ability of NME3 contributes to fusion efficiency. Together, our findings demonstrate NME3 as a tethering protein promoting selective fusion between PLD6-remodeled mitochondria for quality control.

Original language	English
Article number	e202301091
Journal	Journal of Cell Biology
Volume	222
Issue number	10
DOIs	https://doi.org/10.1083/jcb.202301091
State	Published - 02 10 2023
Externally published	Yes

Bibliographical note

Keywords

Humans
Mitochondria/metabolism
Mitochondrial Dynamics
Mitochondrial Membranes/metabolism
Mitochondrial Proteins/genetics
NM23 Nucleoside Diphosphate Kinases/metabolism
Phosphatidic Acids/metabolism
Phospholipase D/metabolism

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10.1083/jcb.202301091

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Su, Y. A., Chiu, H. Y., Chang, Y. C., Sung, C. J., Chen, C. W., Tei, R., Huang, X. R., Hsu, S. C., Lin, S. S., Wang, H. C., Lin, Y. C., Hsu, J. C., Bauer, H., Feng, Y., Baskin, J. M., Chang, Z. F., & Liu, Y. W. (2023). NME3 binds to phosphatidic acid and mediates PLD6-induced mitochondrial tethering. Journal of Cell Biology, 222(10), Article e202301091. https://doi.org/10.1083/jcb.202301091

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title = "NME3 binds to phosphatidic acid and mediates PLD6-induced mitochondrial tethering",

abstract = "Mitochondria are dynamic organelles regulated by fission and fusion processes. The fusion of membranes requires elaborative coordination of proteins and lipids and is particularly crucial for the function and quality control of mitochondria. Phosphatidic acid (PA) on the mitochondrial outer membrane generated by PLD6 facilitates the fusion of mitochondria. However, how PA promotes mitochondrial fusion remains unclear. Here, we show that a mitochondrial outer membrane protein, NME3, is required for PLD6-induced mitochondrial tethering or clustering. NME3 is enriched at the contact interface of two closely positioned mitochondria depending on PLD6, and NME3 binds directly to PA-exposed lipid packing defects via its N-terminal amphipathic helix. The PA binding function and hexamerization confer NME3 mitochondrial tethering activity. Importantly, nutrient starvation enhances the enrichment efficiency of NME3 at the mitochondrial contact interface, and the tethering ability of NME3 contributes to fusion efficiency. Together, our findings demonstrate NME3 as a tethering protein promoting selective fusion between PLD6-remodeled mitochondria for quality control.",

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author = "Su, {You An} and Chiu, {Hsin Yi} and Chang, {Yu Chen} and Sung, {Chieh Ju} and Chen, {Chih Wei} and Reika Tei and Huang, {Xuang Rong} and Hsu, {Shao Chun} and Lin, {Shan Shan} and Wang, {Hsien Chu} and Lin, {Yu Chun} and Hsu, {Jui Cheng} and Hermann Bauer and Yuxi Feng and Baskin, {Jeremy M.} and Chang, {Zee Fen} and Liu, {Ya Wen}",

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doi = "10.1083/jcb.202301091",

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journal = "Journal of Cell Biology",

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T1 - NME3 binds to phosphatidic acid and mediates PLD6-induced mitochondrial tethering

AU - Su, You An

AU - Chiu, Hsin Yi

AU - Chang, Yu Chen

AU - Sung, Chieh Ju

AU - Chen, Chih Wei

AU - Tei, Reika

AU - Huang, Xuang Rong

AU - Hsu, Shao Chun

AU - Lin, Shan Shan

AU - Wang, Hsien Chu

AU - Lin, Yu Chun

AU - Hsu, Jui Cheng

AU - Bauer, Hermann

AU - Feng, Yuxi

AU - Baskin, Jeremy M.

AU - Chang, Zee Fen

AU - Liu, Ya Wen

PY - 2023/10/2

Y1 - 2023/10/2

N2 - Mitochondria are dynamic organelles regulated by fission and fusion processes. The fusion of membranes requires elaborative coordination of proteins and lipids and is particularly crucial for the function and quality control of mitochondria. Phosphatidic acid (PA) on the mitochondrial outer membrane generated by PLD6 facilitates the fusion of mitochondria. However, how PA promotes mitochondrial fusion remains unclear. Here, we show that a mitochondrial outer membrane protein, NME3, is required for PLD6-induced mitochondrial tethering or clustering. NME3 is enriched at the contact interface of two closely positioned mitochondria depending on PLD6, and NME3 binds directly to PA-exposed lipid packing defects via its N-terminal amphipathic helix. The PA binding function and hexamerization confer NME3 mitochondrial tethering activity. Importantly, nutrient starvation enhances the enrichment efficiency of NME3 at the mitochondrial contact interface, and the tethering ability of NME3 contributes to fusion efficiency. Together, our findings demonstrate NME3 as a tethering protein promoting selective fusion between PLD6-remodeled mitochondria for quality control.

AB - Mitochondria are dynamic organelles regulated by fission and fusion processes. The fusion of membranes requires elaborative coordination of proteins and lipids and is particularly crucial for the function and quality control of mitochondria. Phosphatidic acid (PA) on the mitochondrial outer membrane generated by PLD6 facilitates the fusion of mitochondria. However, how PA promotes mitochondrial fusion remains unclear. Here, we show that a mitochondrial outer membrane protein, NME3, is required for PLD6-induced mitochondrial tethering or clustering. NME3 is enriched at the contact interface of two closely positioned mitochondria depending on PLD6, and NME3 binds directly to PA-exposed lipid packing defects via its N-terminal amphipathic helix. The PA binding function and hexamerization confer NME3 mitochondrial tethering activity. Importantly, nutrient starvation enhances the enrichment efficiency of NME3 at the mitochondrial contact interface, and the tethering ability of NME3 contributes to fusion efficiency. Together, our findings demonstrate NME3 as a tethering protein promoting selective fusion between PLD6-remodeled mitochondria for quality control.

KW - Humans

KW - Mitochondria/metabolism

KW - Mitochondrial Dynamics

KW - Mitochondrial Membranes/metabolism

KW - Mitochondrial Proteins/genetics

KW - NM23 Nucleoside Diphosphate Kinases/metabolism

KW - Phosphatidic Acids/metabolism

KW - Phospholipase D/metabolism

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U2 - 10.1083/jcb.202301091

DO - 10.1083/jcb.202301091

M3 - 文章

C2 - 37584589

AN - SCOPUS:85168060282

SN - 0021-9525

VL - 222

JO - Journal of Cell Biology

JF - Journal of Cell Biology

IS - 10

M1 - e202301091

ER -

NME3 binds to phosphatidic acid and mediates PLD6-induced mitochondrial tethering

Abstract

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Keywords

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