Depot-Specific Roles for C/EBPα in White Adipose Tissue Development and Metabolism

Rates of obesity and its associated metabolic comorbidities continue to rise in the developed world. It is well established that in obesity, the distribution and not just amount of excess white adipose tissue (WAT) correlates with a person’s risk for comorbidities such as coronary artery disease and type 2 diabetes. Thus, understanding the specific mechanisms that drive WAT development in specific adipose depots could elucidate novel mechanisms of metabolic disease. SNPs near the gene CEBPA have been associated with multiple cardiometabolic traits by human genome-wide association studies, including waist-to-hip ratio, suggesting that CEBPA regulates WAT distribution. CEBPA encodes a well characterized transcription factor (C/EBPα) that is long recognized as a master regulator of adipocyte differentiation, yet depot-specific roles for C/EBPα have not been previously described. To further investigate this genetic link, we generated mice with adipocyte-specific Cebpa knockout (Cebpa_ASKO) and found that these mice are almost entirely lacking gonadal WAT (gWAT) despite the inguinal WAT (iWAT) being present in near normal amounts. Despite developing, Cebpa_ASKO iWAT contains fewer and larger adipocytes, and fails to expand when challenged with high fat diet. RNA-seq and functional studies demonstrate evidence of altered lipid metabolism and adipocyte function in Cebpa_ASKO iWAT. Finally, Cebpa_ASKO mice have multiple other metabolic phenotypes, including lipid-laden BAT, increased hepatic triglycerides, and increased plasma cholesterol, all of which worsen with prolonged high fat diet feeding. Taken together, these data highlight depot-specific roles for C/EBPα in adipose tissue development, as well as the importance of adipocyte C/EBPα in maintaining metabolic homeostasis.