AMPK regulates ARF1 localization to membrane contact sites to facilitate fatty acid transfer between lipid droplets and mitochondria

AMPK regulates ARF1 localization to membrane contact sites to facilitate fatty acid transfer between lipid droplets and mitochondria

Abstract Lipid droplet (LD) -mitochondrion contacts play a crucial role in regulating energy metabolism and fatty acid oxidation in skeletal muscle cells. However, the proteins that regulate these interactions remain poorly understood. Here, we demonstrate that the binding between ADP-ribosylation f...

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Bibliographic Details
Main Authors: Lupeng Chen, Yue Liu, Junzhi Zhang, Tongxing Song, Jian Wu, Zhuqing Ren
Format: Article
Language:English
Published: Nature Publishing Group 2025-08-01
Series:Cell Death and Disease
Online Access:https://doi.org/10.1038/s41419-025-07957-7
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Summary:Abstract Lipid droplet (LD) -mitochondrion contacts play a crucial role in regulating energy metabolism and fatty acid oxidation in skeletal muscle cells. However, the proteins that regulate these interactions remain poorly understood. Here, we demonstrate that the binding between ADP-ribosylation factor 1(ARF1) and perilipin2 (Plin2) regulates LD-mitochondrion contacts under starvation conditions, facilitating the transfer of fatty acids from LDs to mitochondria. In C2C12 cells, starvation increased ARF1’s GTP-binding activity and its localization to mitochondria, enhancing ARF1’s binding to Plin2 and facilitating fatty acid flow from LDs to mitochondria. In contrast, knockdown of ARF1 reduced LD-mitochondrion interactions and blocked fatty acids transfer. Additionally, ARF1-mediated interactions were regulated by AMPK; inhibiting AMPK activity reduced ARF1 localization to LDs and mitochondria, and blocked LD-mitochondrion interactions. In mice, starvation increased ARF1 expression in muscle tissue and LD-mitochondrion contacts. Conversely, inhibiting ARF1 led to lipid accumulation in muscle tissue. In conclusion, our work suggests that ARF1 is a critical regulator of LD-mitochondrion interactions and plays a significant role in energy metabolism regulation in skeletal muscle.
ISSN:2041-4889

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