Glucose‐mediated mitochondrial reprogramming by cholesterol export at TM4SF5‐enriched mitochondria‐lysosome contact sites

Ji Eon Kim; So‐Young Park; Chulhwan Kwak; Yoonji Lee; Dae‐Geun Song; Jae Woo Jung; Haesong Lee; Eun‐Ae Shin; Yangie Pinanga; Kyung‐hee Pyo; Eun Hae Lee; Wonsik Kim; Soyeon Kim; Chang‐Duck Jun; Jeanho Yun; Sun Choi; Hyun‐Woo Rhee; Kwang‐Hyeon Liu; Jung Weon Lee

doi:10.1002/cac2.12510

Cancer Communications (Jan 2024)

Glucose‐mediated mitochondrial reprogramming by cholesterol export at TM4SF5‐enriched mitochondria‐lysosome contact sites

Ji Eon Kim,
So‐Young Park,
Chulhwan Kwak,
Yoonji Lee,
Dae‐Geun Song,
Jae Woo Jung,
Haesong Lee,
Eun‐Ae Shin,
Yangie Pinanga,
Kyung‐hee Pyo,
Eun Hae Lee,
Wonsik Kim,
Soyeon Kim,
Chang‐Duck Jun,
Jeanho Yun,
Sun Choi,
Hyun‐Woo Rhee,
Kwang‐Hyeon Liu,
Jung Weon Lee

Affiliations

Ji Eon Kim: Department of Pharmacy College of Pharmacy, Seoul National University Seoul Republic of Korea
So‐Young Park: BK21 FOUR Community‐Based Intelligent Novel Drug Discovery Education Unit, College of Pharmacy and Research Institute of Pharmaceutical Sciences, Kyungpook National University Daegu Republic of Korea
Chulhwan Kwak: Department of Chemistry Seoul National University Seoul Republic of Korea
Yoonji Lee: College of Pharmacy, Chung‐Ang University Seoul Republic of Korea
Dae‐Geun Song: Natural Product Informatics Research Center, Korea Institute of Science and Technology (KIST) Gangneung‐si Gangwon‐do Republic of Korea
Jae Woo Jung: Department of Pharmacy College of Pharmacy, Seoul National University Seoul Republic of Korea
Haesong Lee: Department of Pharmacy College of Pharmacy, Seoul National University Seoul Republic of Korea
Eun‐Ae Shin: Department of Pharmacy College of Pharmacy, Seoul National University Seoul Republic of Korea
Yangie Pinanga: Department of Pharmacy College of Pharmacy, Seoul National University Seoul Republic of Korea
Kyung‐hee Pyo: Department of Pharmacy College of Pharmacy, Seoul National University Seoul Republic of Korea
Eun Hae Lee: Department of Pharmacy College of Pharmacy, Seoul National University Seoul Republic of Korea
Wonsik Kim: Department of Pharmacy College of Pharmacy, Seoul National University Seoul Republic of Korea
Soyeon Kim: Department of Pharmacy College of Pharmacy, Seoul National University Seoul Republic of Korea
Chang‐Duck Jun: School of Life Sciences, Gwangju Institute of Science and Technology (GIST) Gwangju Republic of Korea
Jeanho Yun: Department of Biochemistry College of Medicine, Dong‐A University Busan Republic of Korea
Sun Choi: Global AI Drug Discovery Center, College of Pharmacy and Graduate School of Pharmaceutical Sciences, Ewha Womans University Seoul Republic of Korea
Hyun‐Woo Rhee: Department of Chemistry Seoul National University Seoul Republic of Korea
Kwang‐Hyeon Liu: BK21 FOUR Community‐Based Intelligent Novel Drug Discovery Education Unit, College of Pharmacy and Research Institute of Pharmaceutical Sciences, Kyungpook National University Daegu Republic of Korea
Jung Weon Lee: Department of Pharmacy College of Pharmacy, Seoul National University Seoul Republic of Korea

DOI: https://doi.org/10.1002/cac2.12510
Journal volume & issue: Vol. 44, no. 1
pp. 47 – 75

Abstract

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Abstract Background Transmembrane 4 L six family member 5 (TM4SF5) translocates subcellularly and functions metabolically, although it is unclear how intracellular TM4SF5 translocation is linked to metabolic contexts. It is thus of interests to understand how the traffic dynamics of TM4SF5 to subcellular endosomal membranes are correlated to regulatory roles of metabolisms. Methods Here, we explored the metabolic significance of TM4SF5 localization at mitochondria‐lysosome contact sites (MLCSs), using in vitro cells and in vivo animal systems, via approaches by immunofluorescence, proximity labelling based proteomics analysis, organelle reconstitution etc. Results Upon extracellular glucose repletion following depletion, TM4SF5 became enriched at MLCSs via an interaction between mitochondrial FK506‐binding protein 8 (FKBP8) and lysosomal TM4SF5. Proximity labeling showed molecular clustering of phospho‐dynamic‐related protein I (DRP1) and certain mitophagy receptors at TM4SF5‐enriched MLCSs, leading to mitochondrial fission and autophagy. TM4SF5 bound NPC intracellular cholesterol transporter 1 (NPC1) and free cholesterol, and mediated export of lysosomal cholesterol to mitochondria, leading to impaired oxidative phosphorylation but intact tricarboxylic acid (TCA) cycle and β‐oxidation. In mouse models, hepatocyte Tm4sf5 promoted mitophagy and cholesterol transport to mitochondria, both with positive relations to liver malignancy. Conclusions Our findings suggested that TM4SF5‐enriched MLCSs regulate glucose catabolism by facilitating cholesterol export for mitochondrial reprogramming, presumably while hepatocellular carcinogenesis, recapitulating aspects for hepatocellular carcinoma metabolism with mitochondrial reprogramming to support biomolecule synthesis in addition to glycolytic energetics.

Published in Cancer Communications

ISSN: 2523-3548 (Online)
Publisher: Wiley
Country of publisher: Australia
LCC subjects: Medicine: Internal medicine: Neoplasms. Tumors. Oncology. Including cancer and carcinogens
Website: https://onlinelibrary.wiley.com/journal/25233548

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