Ubc9 deletion in adipocytes causes lipoatrophy in mice

Objective: White adipose tissue (WAT) expansion regulates energy balance and overall metabolic homeostasis. WAT absence or loss occurring through lipodystrophy and lipoatrophy contributes to the development of dyslipidemia, hepatic steatosis, and insulin resistance. We previously demonstrated the sole small ubiquitin-like modifier (SUMO) E2- conjuguating enzyme Ubc9 represses human adipocyte differentiation. Germline and other tissue-specific deletions of Ubc9 frequently cause lethality in mice. As a result, the role of Ubc9 during WAT development remains unknown. Methods: To determine how Ubc9 impacts body composition and energy balance, we generated adipocyte-specific Ubc9 knockout mice (Ubc9a-KO). CRISPR/Cas9 gene editing inserted loxP sites flanking exons 3 and 4 at the Ubc9 locus. Subsequent genetic crosses to AdipoQ-Cre transgenic mice allowed deletion of Ubc9 in white and brown adipocytes. We measured multiple metabolic endpoints that describe energy balance and carbohydrate metabolism in Ubc9a-KO and littermate controls during postnatal growth. Results: To our surprise, Ubc9a-KO mice developed hyperinsulinemia and hepatic steatosis. Global energy balance defects emerged from dysfunctional WAT marked by pronounced local inflammation, loss of serum adipokines, hepatomegaly, and near absence of major adipose tissue depots. We observed progressive lipoatrophy that commences in the early adolescent period. Conclusions: Our results demonstrate that Ubc9 expression in mature adipocytes is essential for maintaining WAT expansion. Deletion of Ubc9 in fat cells compromised and diminished adipocyte function that provoked WAT inflammation and ectopic lipid accumulation in the liver. Our findings reveal an indispensable role for Ubc9 during white adipocyte expansion and endocrine control of energy balance.