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STK3/STK4 signalling in adipocytes regulates mitophagy and energy expenditure

Cited 29 time in Web of Science Cited 29 time in Scopus
Authors

Cho, Yoon Keun; Son, Yeonho; Saha, Abhirup; Kim, Doeun; Choi, Cheoljun; Kim, Minsu; Park, Ji-Hyun; Im, Hyeonyeong; Han, Juhyeong; Kim, Kyungmin; Jung, Young-Suk; Yun, Jeanho; Bae, Eun Ju; Seong, Je Kyung; Lee, Mi-Ock; Lee, Sangkyu; Granneman, James G.; Lee, Yun-Hee

Issue Date
2021-03
Publisher
Nature Publishing Group (Springer Nature)
Citation
Nature Metabolism, Vol.3 No.3, pp.428-441
Abstract
Cho et al. show regulation of mitophagy, and thereby energy expenditure, in adipocytes by the Hippo pathway kinases STK3 and STK4, independently of classical Hippo signalling. Genetic inactivation of Stk3 and Stk4 is shown to protect mice from the adverse metabolic effects of diet-induced obesity. Obesity reduces adipocyte mitochondrial function, and expanding adipocyte oxidative capacity is an emerging strategy to improve systemic metabolism. Here, we report that serine/threonine-protein kinase 3 (STK3) and STK4 are key physiological suppressors of mitochondrial capacity in brown, beige and white adipose tissues. Levels of STK3 and STK4, kinases in the Hippo signalling pathway, are greater in white than brown adipose tissues, and levels in brown adipose tissue are suppressed by cold exposure and greatly elevated by surgical denervation. Genetic inactivation of Stk3 and Stk4 increases mitochondrial mass and function, stabilizes uncoupling protein 1 in beige adipose tissue and confers resistance to metabolic dysfunction induced by high-fat diet feeding. Mechanistically, STK3 and STK4 increase adipocyte mitophagy in part by regulating the phosphorylation and dimerization status of the mitophagy receptor BNIP3. STK3 and STK4 expression levels are elevated in human obesity, and pharmacological inhibition improves metabolic profiles in a mouse model of obesity, suggesting STK3 and STK4 as potential targets for treating obesity-related diseases.
ISSN
2522-5812
URI
https://hdl.handle.net/10371/205775
DOI
https://doi.org/10.1038/s42255-021-00362-2
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  • College of Veterinary Medicine
  • Department of Veterinary Medicine
Research Area Metabolic syndrome model construction and omics research, Mouse locomotion and metabolic phenotyping analysis, Study of immune regulatory response in obesity, 대사증후군 모델 구축 및 오믹스 연구, 마우스 운동 및 대사 표현형 분석, 비만에서의 면역 조절 반응 연구

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