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1. Energy expenditure deficits drive obesity in a mouse model of Alström syndrome.

Author

Stephenson EJ, Kinney CE, Stayton AS, and Han JC

Subjects

Female, Male, Child, Humans, Mice, Animals, Aged, Cell Cycle Proteins genetics, Disease Models, Animal, Adipose Tissue, Alstrom Syndrome genetics, Pediatric Obesity

Abstract

Objective: Alström syndrome (AS) is a rare multisystem disorder of which early onset childhood obesity is a cardinal feature. Like humans with AS, animal models with Alms1 loss-of-function mutations develop obesity, supporting the notion that ALMS1 is required for the regulatory control of energy balance across species. This study aimed to determine which component(s) of energy balance are reliant on ALMS1., Methods: Comprehensive energy balance phenotyping was performed on Alms1 tvrm102 mice at both 8 and 18 weeks of age., Results: It was found that adiposity gains occurred early and rapidly in Alms1 tvrm102 male mice but much later in females. Rapid increases in body fat in males were due to a marked reduction in energy expenditure (EE) during early life and not due to any genotype-specific increases in energy intake under chow conditions. Energy intake did increase in a genotype-specific manner when mice were provided a high-fat diet, exacerbating the effects of reduced EE on obesity progression. The EE deficit observed in male Alms1 tvrm102 mice did not persist as mice aged., Conclusions: Either loss of ALMS1 causes a developmental delay in the mechanisms controlling early life EE or activation of compensatory mechanisms occurs after obesity is established in AS. Future studies will determine how ALMS1 modulates EE and how sex moderates this process., (© 2023 The Obesity Society.)

Published

2023