Cross-species studies implicate the melanocortin 3 receptor more strongly in the control of pubertal development than energy balance

Katie Duckett; Alyce McClella; Laura J Corbin; Irene Cimino; Ahmed  Elhakeem; Ana Luiza  Goncalves Soares; Alice Williamson; Eloise Cross; Zammy Fairhurst-Hunter; Slavé Petrovski; Debra Rimmington; Jesus Alegre-Diaz; Jaime Berumen; Pablo Kuri-Morales; Roberto Tapia-Conyer; BELIEVE Study; Jacek Mokrosinski; I Sadaf Farooqi; Asif Rasheed; Danish Saleheen; Adam Butterworth; Nicholas John  Timpson; Anthony Coll; Eleanor Raffan; Brian Lam; Stephen O'Rahilly

doi:10.1016/j.molmet.2025.102301

Cross-species studies implicate the melanocortin 3 receptor more strongly in the control of pubertal development than energy balance

Katie Duckett, Alyce McClella, Laura J Corbin, Irene Cimino, Ahmed Elhakeem, Ana Luiza Goncalves Soares, Alice Williamson, Eloise Cross, Zammy Fairhurst-Hunter, Slavé Petrovski, Debra Rimmington, Jesus Alegre-Diaz, Jaime Berumen, Pablo Kuri-Morales, Roberto Tapia-Conyer, BELIEVE Study, Jacek Mokrosinski, I Sadaf Farooqi, Asif Rasheed, Danish SaleheenAdam Butterworth, Nicholas John Timpson, Anthony Coll, Eleanor Raffan, Brian Lam, Stephen O'Rahilly

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

Abstract

Hypothalamic neurons expressing either POMC or AGRP sense nutritional state directly and indirectly and transmit these neuropeptide signals to other brain centres through the melanocortin 3 and 4 receptors. MC4R is primarily concerned with the control of appetite and energy expenditure while MC3R is more closely related to the control of linear growth and the timing of puberty. The role of MC3R in the long-term control of energy balance and body composition is less clear, particularly in humans. We have undertaken studies in humans, domestic dogs and mice with the goal of clarifying the relative impact of MC3R deficiency on energy balance, growth and sexual development. By studying three large consanguineously enriched cohorts, totalling approximately 300K people, we identified nine individuals who are homozygous for functionally null MC3R variants. The body mass index (BMI) of the homozygous MC3R variant carriers was not significantly different from that of age, sex and demographically matched controls, with six of the nine homozygotes having a BMI < 30kg/m².

We detected a canine MC3R missense variant (p.M320I) which is common in labrador retrievers and showed that this significantly impairs receptor signalling. Dogs homozygous for p.M320I were lighter and showed delayed pubertal development but were not significantly more obese than wild-type or heterozygous dogs. We also established that the lack of Mc3r delayed pubertal development in both male and female mice.

Finally, we studied growth and pubertal trajectories of individuals carrying rare loss-of-function MC3R variants and found that male carriers had delayed peak weight velocity and genital development but had no evidence for excess body fat compared to non-carriers.

Our results support MC3R having a conserved role across mammals in controlling growth and pubertal timing. While MC3R deficiency may influence linear growth and body composition, complete loss of MC3R does not result in a penetrant human obesity syndrome.

Original language	English
Article number	102301
Number of pages	65
Journal	Molecular Metabolism
Volume	103
Early online date	10 Dec 2025
DOIs	https://doi.org/10.1016/j.molmet.2025.102301
Publication status	Published - 1 Jan 2026

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© 2025 The Authors

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Duckett, K., McClella, A., Corbin, L. J., Cimino, I., Elhakeem, A., Goncalves Soares, A. L., Williamson, A., Cross, E., Fairhurst-Hunter, Z., Petrovski, S., Rimmington, D., Alegre-Diaz, J., Berumen, J., Kuri-Morales, P., Tapia-Conyer, R., BELIEVE Study, Mokrosinski, J., Farooqi, I. S., Rasheed, A., ... O'Rahilly, S. (2026). Cross-species studies implicate the melanocortin 3 receptor more strongly in the control of pubertal development than energy balance. Molecular Metabolism, 103, Article 102301. https://doi.org/10.1016/j.molmet.2025.102301

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title = "Cross-species studies implicate the melanocortin 3 receptor more strongly in the control of pubertal development than energy balance",

abstract = "Hypothalamic neurons expressing either POMC or AGRP sense nutritional state directly and indirectly and transmit these neuropeptide signals to other brain centres through the melanocortin 3 and 4 receptors. MC4R is primarily concerned with the control of appetite and energy expenditure while MC3R is more closely related to the control of linear growth and the timing of puberty. The role of MC3R in the long-term control of energy balance and body composition is less clear, particularly in humans. We have undertaken studies in humans, domestic dogs and mice with the goal of clarifying the relative impact of MC3R deficiency on energy balance, growth and sexual development. By studying three large consanguineously enriched cohorts, totalling approximately 300K people, we identified nine individuals who are homozygous for functionally null MC3R variants. The body mass index (BMI) of the homozygous MC3R variant carriers was not significantly different from that of age, sex and demographically matched controls, with six of the nine homozygotes having a BMI < 30kg/m2. We detected a canine MC3R missense variant (p.M320I) which is common in labrador retrievers and showed that this significantly impairs receptor signalling. Dogs homozygous for p.M320I were lighter and showed delayed pubertal development but were not significantly more obese than wild-type or heterozygous dogs. We also established that the lack of Mc3r delayed pubertal development in both male and female mice. Finally, we studied growth and pubertal trajectories of individuals carrying rare loss-of-function MC3R variants and found that male carriers had delayed peak weight velocity and genital development but had no evidence for excess body fat compared to non-carriers. Our results support MC3R having a conserved role across mammals in controlling growth and pubertal timing. While MC3R deficiency may influence linear growth and body composition, complete loss of MC3R does not result in a penetrant human obesity syndrome.",

author = "Katie Duckett and Alyce McClella and Corbin, \{Laura J\} and Irene Cimino and Ahmed Elhakeem and \{Goncalves Soares\}, \{Ana Luiza\} and Alice Williamson and Eloise Cross and Zammy Fairhurst-Hunter and Slav{\'e} Petrovski and Debra Rimmington and Jesus Alegre-Diaz and Jaime Berumen and Pablo Kuri-Morales and Roberto Tapia-Conyer and \{BELIEVE Study\} and Jacek Mokrosinski and Farooqi, \{I Sadaf\} and Asif Rasheed and Danish Saleheen and Adam Butterworth and Timpson, \{Nicholas John\} and Anthony Coll and Eleanor Raffan and Brian Lam and Stephen O'Rahilly",

note = "Publisher Copyright: {\textcopyright} 2025 The Authors",

year = "2026",

month = jan,

day = "1",

doi = "10.1016/j.molmet.2025.102301",

language = "English",

volume = "103",

journal = "Molecular Metabolism",

issn = "2212-8778",

publisher = "Elsevier GmbH",

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Duckett, K, McClella, A, Corbin, LJ, Cimino, I, Elhakeem, A , Goncalves Soares, AL, Williamson, A, Cross, E, Fairhurst-Hunter, Z, Petrovski, S, Rimmington, D, Alegre-Diaz, J, Berumen, J, Kuri-Morales, P, Tapia-Conyer, R, BELIEVE Study, Mokrosinski, J, Farooqi, IS, Rasheed, A, Saleheen, D, Butterworth, A, Timpson, NJ, Coll, A, Raffan, E, Lam, B & O'Rahilly, S 2026, 'Cross-species studies implicate the melanocortin 3 receptor more strongly in the control of pubertal development than energy balance', Molecular Metabolism, vol. 103, 102301. https://doi.org/10.1016/j.molmet.2025.102301

TY - JOUR

T1 - Cross-species studies implicate the melanocortin 3 receptor more strongly in the control of pubertal development than energy balance

AU - Duckett, Katie

AU - McClella, Alyce

AU - Corbin, Laura J

AU - Cimino, Irene

AU - Elhakeem, Ahmed

AU - Goncalves Soares, Ana Luiza

AU - Williamson, Alice

AU - Cross, Eloise

AU - Fairhurst-Hunter, Zammy

AU - Petrovski, Slavé

AU - Rimmington, Debra

AU - Alegre-Diaz, Jesus

AU - Berumen, Jaime

AU - Kuri-Morales, Pablo

AU - Tapia-Conyer, Roberto

AU - BELIEVE Study

AU - Mokrosinski, Jacek

AU - Farooqi, I Sadaf

AU - Rasheed, Asif

AU - Saleheen, Danish

AU - Butterworth, Adam

AU - Timpson, Nicholas John

AU - Coll, Anthony

AU - Raffan, Eleanor

AU - Lam, Brian

AU - O'Rahilly, Stephen

PY - 2026/1/1

Y1 - 2026/1/1

N2 - Hypothalamic neurons expressing either POMC or AGRP sense nutritional state directly and indirectly and transmit these neuropeptide signals to other brain centres through the melanocortin 3 and 4 receptors. MC4R is primarily concerned with the control of appetite and energy expenditure while MC3R is more closely related to the control of linear growth and the timing of puberty. The role of MC3R in the long-term control of energy balance and body composition is less clear, particularly in humans. We have undertaken studies in humans, domestic dogs and mice with the goal of clarifying the relative impact of MC3R deficiency on energy balance, growth and sexual development. By studying three large consanguineously enriched cohorts, totalling approximately 300K people, we identified nine individuals who are homozygous for functionally null MC3R variants. The body mass index (BMI) of the homozygous MC3R variant carriers was not significantly different from that of age, sex and demographically matched controls, with six of the nine homozygotes having a BMI < 30kg/m2. We detected a canine MC3R missense variant (p.M320I) which is common in labrador retrievers and showed that this significantly impairs receptor signalling. Dogs homozygous for p.M320I were lighter and showed delayed pubertal development but were not significantly more obese than wild-type or heterozygous dogs. We also established that the lack of Mc3r delayed pubertal development in both male and female mice. Finally, we studied growth and pubertal trajectories of individuals carrying rare loss-of-function MC3R variants and found that male carriers had delayed peak weight velocity and genital development but had no evidence for excess body fat compared to non-carriers. Our results support MC3R having a conserved role across mammals in controlling growth and pubertal timing. While MC3R deficiency may influence linear growth and body composition, complete loss of MC3R does not result in a penetrant human obesity syndrome.

AB - Hypothalamic neurons expressing either POMC or AGRP sense nutritional state directly and indirectly and transmit these neuropeptide signals to other brain centres through the melanocortin 3 and 4 receptors. MC4R is primarily concerned with the control of appetite and energy expenditure while MC3R is more closely related to the control of linear growth and the timing of puberty. The role of MC3R in the long-term control of energy balance and body composition is less clear, particularly in humans. We have undertaken studies in humans, domestic dogs and mice with the goal of clarifying the relative impact of MC3R deficiency on energy balance, growth and sexual development. By studying three large consanguineously enriched cohorts, totalling approximately 300K people, we identified nine individuals who are homozygous for functionally null MC3R variants. The body mass index (BMI) of the homozygous MC3R variant carriers was not significantly different from that of age, sex and demographically matched controls, with six of the nine homozygotes having a BMI < 30kg/m2. We detected a canine MC3R missense variant (p.M320I) which is common in labrador retrievers and showed that this significantly impairs receptor signalling. Dogs homozygous for p.M320I were lighter and showed delayed pubertal development but were not significantly more obese than wild-type or heterozygous dogs. We also established that the lack of Mc3r delayed pubertal development in both male and female mice. Finally, we studied growth and pubertal trajectories of individuals carrying rare loss-of-function MC3R variants and found that male carriers had delayed peak weight velocity and genital development but had no evidence for excess body fat compared to non-carriers. Our results support MC3R having a conserved role across mammals in controlling growth and pubertal timing. While MC3R deficiency may influence linear growth and body composition, complete loss of MC3R does not result in a penetrant human obesity syndrome.

U2 - 10.1016/j.molmet.2025.102301

DO - 10.1016/j.molmet.2025.102301

M3 - Article (Academic Journal)

C2 - 41386534

SN - 2212-8778

VL - 103

JO - Molecular Metabolism

JF - Molecular Metabolism

M1 - 102301

ER -

Cross-species studies implicate the melanocortin 3 receptor more strongly in the control of pubertal development than energy balance

Abstract

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