A muscle-specific UBE2O/AMPKα2 axis promotes insulin resistance and metabolic syndrome in obesity
Isabelle K. Vila, Mi Kyung Park, Stephanie Rebecca Setijono, Yixin Yao, Hyejin Kim, Pierre-Marie Badin, Sekyu Choi, Vihang Narkar, Sung-Woo Choi, Jongkyeong Chung, Cedric Moro, Su Jung Song, Min Sup Song
Isabelle K. Vila, Mi Kyung Park, Stephanie Rebecca Setijono, Yixin Yao, Hyejin Kim, Pierre-Marie Badin, Sekyu Choi, Vihang Narkar, Sung-Woo Choi, Jongkyeong Chung, Cedric Moro, Su Jung Song, Min Sup Song
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Research Article Endocrinology Metabolism

A muscle-specific UBE2O/AMPKα2 axis promotes insulin resistance and metabolic syndrome in obesity

Abstract

Ubiquitin-conjugating enzyme E2O (UBE2O) is expressed preferentially in metabolic tissues, but its role in regulating energy homeostasis has yet to be defined. Here we find that UBE2O is markedly upregulated in obese subjects with type 2 diabetes and show that whole-body disruption of Ube2o in mouse models in vivo results in improved metabolic profiles and resistance to high-fat diet–induced (HFD-induced) obesity and metabolic syndrome. With no difference in nutrient intake, Ube2o–/– mice were leaner and expended more energy than WT mice. In addition, hyperinsulinemic-euglycemic clamp studies revealed that Ube2o–/– mice were profoundly insulin sensitive. Through phenotype analysis of HFD mice with muscle-, fat-, or liver–specific knockout of Ube2o, we further identified UBE2O as an essential regulator of glucose and lipid metabolism programs in skeletal muscle, but not in adipose or liver tissue. Mechanistically, UBE2O acted as a ubiquitin ligase and targeted AMPKα2 for ubiquitin-dependent degradation in skeletal muscle; further, muscle-specific heterozygous knockout of Prkaa2 ablated UBE2O-controlled metabolic processes. These results identify the UBE2O/AMPKα2 axis as both a potent regulator of metabolic homeostasis in skeletal muscle and a therapeutic target in the treatment of diabetes and metabolic disorders.

Authors

Isabelle K. Vila, Mi Kyung Park, Stephanie Rebecca Setijono, Yixin Yao, Hyejin Kim, Pierre-Marie Badin, Sekyu Choi, Vihang Narkar, Sung-Woo Choi, Jongkyeong Chung, Cedric Moro, Su Jung Song, Min Sup Song

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Figure 1

UBE2O is upregulated in obese subjects with type 2 diabetes.

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UBE2O is upregulated in obese subjects with type 2 diabetes. (A) An RNA...
(A) An RNA interference (RNAi) screen identifies UBE2O as a potent regulator of glucose uptake in myotubes. Primary normal human skeletal myotubes (HSkMs) and C2C12 mouse myotubes expressing a nontargeting control siRNA pool (Cont. siRNAs) or a synthetic siRNA library targeting 30 human and mouse E2s, respectively, were subjected to a screen for insulin-stimulated 2-deoxyglucose uptake. 2-DG6P, 2-deoxyglucose-6-phosphate. n = 3. (B) Total RNAs from quadriceps skeletal muscles of mice fed a normal chow or an HFD for 28 weeks were subjected to RT-qPCR. n = 4. (C and D) Lysates from quadriceps skeletal muscles of 9-month-old Ube2o+/+ mice fed normal chow or an HFD for 28 weeks (C) and 25-week-old type 2 diabetic db/db and lean (db/+) mice (D) were subjected to immunoblotting. Error bars represent ±SEM. P value was determined by Student’s t test. *P < 0.05, **P < 0.01, ***P < 0.001, control siRNAs HSkMs vs. E2 siRNAs HSkMs; #P < 0.05, ##P < 0.01, ###P < 0.001, control siRNAs C2C12 vs. E2 siRNAs C2C12; P < 0.05, †††P < 0.001, chow vs. HFD. Uncropped gels and blots are available in the supplemental material.