Your search keyword '"Fidelito, G"' showing total 2 results

1. LINC00116-encoded microprotein mitoregulin regulates fatty acid metabolism at the mitochondrial outer membrane

Author

Zhang, S, Guo, Y, Fidelito, G, Robinson, DRL, Liang, C, Lim, R, Bichler, Z, Guo, R, Wu, G, Xu, H, Zhou, QD, Singh, BK, Yen, P, Kappei, D, Stroud, DA, Ho, L, Zhang, S, Guo, Y, Fidelito, G, Robinson, DRL, Liang, C, Lim, R, Bichler, Z, Guo, R, Wu, G, Xu, H, Zhou, QD, Singh, BK, Yen, P, Kappei, D, Stroud, DA, and Ho, L

Abstract

LINC00116 encodes a microprotein first identified as Mitoregulin (MTLN), where it was reported to localize to the inner membrane of mitochondria to regulate fatty acid oxidation and oxidative phosphorylation. These initial discoveries were followed by reports with differing findings about its molecular functions and submitochondrial localization. To clarify the apparent discrepancies, we constructed multiple orthogonal methods of determining the localization of MTLN, including split GFP-based reporters that enable efficient and reliable topology analyses for microproteins. These methods unequivocally demonstrate MTLN primarily localizes to the outer membrane of mitochondria, where it interacts with enzymes of fatty acid metabolism including CPT1B and CYB5B. Loss of MTLN causes the accumulation of very long-chain fatty acids (VLCFAs), especially docosahexaenoic acid (DHA). Intriguingly, loss of MTLN protects mice against western diet/fructose-induced insulin-resistance, suggests a protective effect of VLCFAs in this context. MTLN thus serves as an attractive target to control the catabolism of VLCFAs.

Published

2023

2. LINC00116 -encoded microprotein mitoregulin regulates fatty acid metabolism at the mitochondrial outer membrane.

Author

Zhang S, Guo Y, Fidelito G, Robinson DRL, Liang C, Lim R, Bichler Z, Guo R, Wu G, Xu H, Zhou QD, Singh BK, Yen P, Kappei D, Stroud DA, and Ho L

Abstract

LINC00116 encodes a microprotein first identified as Mitoregulin (MTLN), where it was reported to localize to the inner membrane of mitochondria to regulate fatty acid oxidation and oxidative phosphorylation. These initial discoveries were followed by reports with differing findings about its molecular functions and submitochondrial localization. To clarify the apparent discrepancies, we constructed multiple orthogonal methods of determining the localization of MTLN, including split GFP-based reporters that enable efficient and reliable topology analyses for microproteins. These methods unequivocally demonstrate MTLN primarily localizes to the outer membrane of mitochondria, where it interacts with enzymes of fatty acid metabolism including CPT1B and CYB5B. Loss of MTLN causes the accumulation of very long-chain fatty acids (VLCFAs), especially docosahexaenoic acid (DHA). Intriguingly, loss of MTLN protects mice against western diet/fructose-induced insulin-resistance, suggests a protective effect of VLCFAs in this context. MTLN thus serves as an attractive target to control the catabolism of VLCFAs., Competing Interests: The authors declare no competing interests., (© 2023 The Authors.)

Published

2023