A Critical Functional Missense Mutation (T117M) in Sheep MC4R Gene Significantly Leads to Gain-of-Function

• Published in: Animals (Basel) Vol. 14; no. 15; p. 2207
• Main Authors: Zhao, Ziyi, Yang, Yuta, Liu, Peiyao, Yan, Taotao, Li, Ran, Pan, Chuanying, Li, Yang, Lan, Xianyong
• Format: Journal Article
• Language: English
• Published: Switzerland MDPI AG 01.08.2024
• Subjects: ACTH; Animals; Biotechnology industry; cellular mechanism; Computer software industry; Cyclic adenylic acid; distribution; function mutation; Genes; Genetic aspects; Genetic testing; Genomes; Genotype & phenotype; Homeostasis; MC4R; Mediation; Mutation; Polymorphism; Proteins; worldwide; United States; China; MC4R; worldwide; cellular mechanism; distribution; function mutation
• ISSN: 2076-2615; 2076-2615
• DOI: 10.3390/ani14152207

The melanocortin 4 receptor ( ) gene plays a central role in regulating energy homeostasis and food intake in livestock, thereby affecting their economic worth and growth. In a previous study, the p.T117M mutation in the sheep gene, which leads to the transition of threonine to methionine, was found to affect the body weight at six months and the average daily gain in Hu sheep. However, there are still limited studies on the frequency of the sheep p.T117M missense mutation globally, and the underlying cellular mechanism remains elusive. Therefore, this study first used WGS to investigate the distribution of the gene p.T117M mutation in 652 individuals across 22 breeds worldwide. The results showed that the mutation frequency was higher in European breeds compared with Chinese sheep breeds, particularly in Poll Dorset sheep (mutation frequency > 0.5). The p.T117M mutation occurs in the first extracellular loop of . Mechanistically, the basal activity of the mutated receptor is significantly increased. Specifically, upon treatment with α-MSH and ACTH ligands, the cAMP and MAPK/ERK signaling activation of M117 is enhanced. These results indicate that the T117M mutation may change the function of the gene by increasing the constitutive activity and signaling activation of cAMP and MAPK/ERK, and, thus, may regulate the growth traits of sheep. In conclusion, this study delved into the global distribution and underlying cellular mechanisms of the T117M mutation of the gene, establishing a scientific foundation for breeding sheep with superior growth, thereby contributing to the advancement of the sheep industry.