Obesity Caused by an OVOL2 Mutation Reveals Dual Roles of OVOL2 in Promoting Thermogenesis and Limiting White Adipogenesis

Overview

Journal Cell Metab

Publisher Cell Press

Specialties Cell Biology
Endocrinology

Date 2022 Oct 13

PMID 36228616

Authors

Zhao Zhang

Yiao Jiang

Lijing Su

Sara Ludwig

Xuechun Zhang

Miao Tang

Xiaohong Li

Priscilla Anderton

Xiaoming Zhan

Mihwa Choi

Jamie Russell

Chun-Hui Bu

Stephen Lyon

Darui Xu

Sara Hildebrand

Lindsay Scott

Jiexia Quan

Rochelle Simpson

Qihua Sun

Baifang Qin

Tiffany Collie

Meron Tadesse

Eva Marie Y Moresco

Bruce Beutler

Affiliations

Soon will be listed here.

Abstract

Using random germline mutagenesis in mice, we identified a viable hypomorphic allele (boh) of the transcription-factor-encoding gene Ovol2 that resulted in obesity, which initially developed with normal food intake and physical activity but decreased energy expenditure. Fat weight was dramatically increased, while lean weight was reduced in 12-week-old boh homozygous mice, culminating by 24 weeks in massive obesity, hepatosteatosis, insulin resistance, and diabetes. The Ovol2 genotype augmented obesity in Lep mice, and pair-feeding failed to normalize obesity in Ovol2 mice. OVOL2-deficient mice were extremely cold intolerant. OVOL2 is essential for brown/beige adipose tissue-mediated thermogenesis. In white adipose tissues, OVOL2 limited adipogenesis by blocking C/EBPα engagement of its transcriptional targets. Overexpression of OVOL2 in adipocytes of mice fed with a high-fat diet reduced total body and liver fat and improved insulin sensitivity. Our data reveal that OVOL2 plays dual functions in thermogenesis and adipogenesis to maintain energy balance.

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