Melanocortin 3 receptor regulates hepatic autophagy and systemic adiposity

Tushar P. Patel; Joo Yun Jun; Arnold Y. Seo; Noah J. Levi; Diana M. Elizondo; Jocelyn Chen; Adrian M. Wong; Nicol Tugarinov; Elizabeth K. Altman; Daniel B. Gehle; Sun Min Jung; Pooja Patel; Mark Ericson; Carrie Haskell-Luevano; Tamar C. Demby; Antony Cougnoux; Anna Wolska; Jack A. Yanovski

doi:10.1038/s41467-025-56936-1

Melanocortin 3 receptor regulates hepatic autophagy and systemic adiposity

Tushar P. Patel, Joo Yun Jun, Arnold Y. Seo, Noah J. Levi, Diana M. Elizondo, Jocelyn Chen, Adrian M. Wong, Nicol Tugarinov, Elizabeth K. Altman, Daniel B. Gehle, Sun Min Jung, Pooja Patel, Mark Ericson, Carrie Haskell-Luevano, Tamar C. Demby, Antony Cougnoux, Anna Wolska, Jack A. Yanovski

Medicinal Chemistry

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Abstract

Systemic lipid homeostasis requires hepatic autophagy, a major cellular program for intracellular fat recycling. Here, we find melanocortin 3 receptor (MC3R) regulates hepatic autophagy in addition to its previously established CNS role in systemic energy partitioning and puberty. Mice with Mc3r deficiency develop obesity with hepatic triglyceride accumulation and disrupted hepatocellular autophagosome turnover. Mice with partially inactive human MC3R due to obesogenic variants demonstrate similar hepatic autophagic dysfunction. In vitro and in vivo activation of hepatic MC3R upregulates autophagy through LC3II activation, TFEB cytoplasmic-to-nuclear translocation, and subsequent downstream gene activation. MC3R-deficient hepatocytes had blunted autophagosome-lysosome docking and lipid droplet clearance. Finally, the liver-specific rescue of Mc3r was sufficient to restore hepatocellular autophagy, improve hepatocyte mitochondrial function and systemic energy expenditures, reduce adipose tissue lipid accumulation, and partially restore body weight in both male and female mice. We thus report a role for MC3R in regulating hepatic autophagy and systemic adiposity.

Original language	English (US)
Article number	1690
Journal	Nature communications
Volume	16
Issue number	1
DOIs	https://doi.org/10.1038/s41467-025-56936-1
State	Published - Dec 2025

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© This is a U.S. Government work and not under copyright protection in the US; foreign copyright protection may apply 2025.

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Patel, T. P., Jun, J. Y., Seo, A. Y., Levi, N. J., Elizondo, D. M., Chen, J., Wong, A. M., Tugarinov, N., Altman, E. K., Gehle, D. B., Jung, S. M., Patel, P., Ericson, M., Haskell-Luevano, C., Demby, T. C., Cougnoux, A., Wolska, A., & Yanovski, J. A. (2025). Melanocortin 3 receptor regulates hepatic autophagy and systemic adiposity. Nature communications, 16(1), Article 1690. https://doi.org/10.1038/s41467-025-56936-1

Patel, TP, Jun, JY, Seo, AY, Levi, NJ, Elizondo, DM, Chen, J, Wong, AM, Tugarinov, N, Altman, EK, Gehle, DB, Jung, SM, Patel, P, Ericson, M , Haskell-Luevano, C, Demby, TC, Cougnoux, A, Wolska, A & Yanovski, JA 2025, 'Melanocortin 3 receptor regulates hepatic autophagy and systemic adiposity', Nature communications, vol. 16, no. 1, 1690. https://doi.org/10.1038/s41467-025-56936-1

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abstract = "Systemic lipid homeostasis requires hepatic autophagy, a major cellular program for intracellular fat recycling. Here, we find melanocortin 3 receptor (MC3R) regulates hepatic autophagy in addition to its previously established CNS role in systemic energy partitioning and puberty. Mice with Mc3r deficiency develop obesity with hepatic triglyceride accumulation and disrupted hepatocellular autophagosome turnover. Mice with partially inactive human MC3R due to obesogenic variants demonstrate similar hepatic autophagic dysfunction. In vitro and in vivo activation of hepatic MC3R upregulates autophagy through LC3II activation, TFEB cytoplasmic-to-nuclear translocation, and subsequent downstream gene activation. MC3R-deficient hepatocytes had blunted autophagosome-lysosome docking and lipid droplet clearance. Finally, the liver-specific rescue of Mc3r was sufficient to restore hepatocellular autophagy, improve hepatocyte mitochondrial function and systemic energy expenditures, reduce adipose tissue lipid accumulation, and partially restore body weight in both male and female mice. We thus report a role for MC3R in regulating hepatic autophagy and systemic adiposity.",

author = "Patel, {Tushar P.} and Jun, {Joo Yun} and Seo, {Arnold Y.} and Levi, {Noah J.} and Elizondo, {Diana M.} and Jocelyn Chen and Wong, {Adrian M.} and Nicol Tugarinov and Altman, {Elizabeth K.} and Gehle, {Daniel B.} and Jung, {Sun Min} and Pooja Patel and Mark Ericson and Carrie Haskell-Luevano and Demby, {Tamar C.} and Antony Cougnoux and Anna Wolska and Yanovski, {Jack A.}",

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AU - Elizondo, Diana M.

AU - Chen, Jocelyn

AU - Wong, Adrian M.

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AU - Altman, Elizabeth K.

AU - Gehle, Daniel B.

AU - Jung, Sun Min

AU - Patel, Pooja

AU - Ericson, Mark

AU - Haskell-Luevano, Carrie

AU - Demby, Tamar C.

AU - Cougnoux, Antony

AU - Wolska, Anna

AU - Yanovski, Jack A.

PY - 2025/12

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N2 - Systemic lipid homeostasis requires hepatic autophagy, a major cellular program for intracellular fat recycling. Here, we find melanocortin 3 receptor (MC3R) regulates hepatic autophagy in addition to its previously established CNS role in systemic energy partitioning and puberty. Mice with Mc3r deficiency develop obesity with hepatic triglyceride accumulation and disrupted hepatocellular autophagosome turnover. Mice with partially inactive human MC3R due to obesogenic variants demonstrate similar hepatic autophagic dysfunction. In vitro and in vivo activation of hepatic MC3R upregulates autophagy through LC3II activation, TFEB cytoplasmic-to-nuclear translocation, and subsequent downstream gene activation. MC3R-deficient hepatocytes had blunted autophagosome-lysosome docking and lipid droplet clearance. Finally, the liver-specific rescue of Mc3r was sufficient to restore hepatocellular autophagy, improve hepatocyte mitochondrial function and systemic energy expenditures, reduce adipose tissue lipid accumulation, and partially restore body weight in both male and female mice. We thus report a role for MC3R in regulating hepatic autophagy and systemic adiposity.

AB - Systemic lipid homeostasis requires hepatic autophagy, a major cellular program for intracellular fat recycling. Here, we find melanocortin 3 receptor (MC3R) regulates hepatic autophagy in addition to its previously established CNS role in systemic energy partitioning and puberty. Mice with Mc3r deficiency develop obesity with hepatic triglyceride accumulation and disrupted hepatocellular autophagosome turnover. Mice with partially inactive human MC3R due to obesogenic variants demonstrate similar hepatic autophagic dysfunction. In vitro and in vivo activation of hepatic MC3R upregulates autophagy through LC3II activation, TFEB cytoplasmic-to-nuclear translocation, and subsequent downstream gene activation. MC3R-deficient hepatocytes had blunted autophagosome-lysosome docking and lipid droplet clearance. Finally, the liver-specific rescue of Mc3r was sufficient to restore hepatocellular autophagy, improve hepatocyte mitochondrial function and systemic energy expenditures, reduce adipose tissue lipid accumulation, and partially restore body weight in both male and female mice. We thus report a role for MC3R in regulating hepatic autophagy and systemic adiposity.

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Melanocortin 3 receptor regulates hepatic autophagy and systemic adiposity

Abstract

Bibliographical note

PubMed: MeSH publication types

UN SDGs

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