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Blocking adipocyte YY1 decouples thermogenesis from beneficial metabolism by promoting spermidine production

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posted on 2024-12-02, 19:53 authored by Chen Qiu, Yu Lu, Suyang Wu, Wenli Guo, Jiahao Ni, Jiyuan Song, Zichao Liu, Xiaoai Chang, Kai Wang, Peng Sun, Qian Zhang, Shufang Yang, Kai Li

The accumulation of mitochondria in thermogenic adipose tissue (i.e., brown and beige fat) increases energy expenditure, which can aid in alleviating obesity and metabolic disorders. However, recent studies have shown that knocking out key proteins required to maintain mitochondrial function inhibits the energy expenditure in thermogenic fat, and yet the knockout mice are unexpectedly protected from developing obesity or metabolic disorders when fed a high-fat diet (HFD). In the present study, non-biased sequencing-based screening revealed the importance of YY1 in the transcription of electron transport chain genes and the enhancement of mitochondrial function in thermogenic adipose tissue. Specifically, adipocyte YY1 null (YAKO) mice showed lower energy expenditure and were intolerant to cold stress. Interestingly, YAKO mice showed alleviation of HFD-induced metabolic disorders, which can be attributed to a suppression of adipose tissue inflammation. Metabolomic analysis revealed that blocking YY1 directed glucose metabolism toward lactate, enhanced the uptake of glutamine, and promoted the production of anti-inflammatory spermidine. Conversely, blocking spermidine production in YAKO mice reversed their resistance to HFD-induced disorders. Thus, although blocking adipocyte YY1 impairs the thermogenesis, it promotes spermidine production and alleviates adipose tissue inflammation, therefore leads to an uncoupling of adipose tissue energy expenditure from HFD-induced metabolic disorders.

Funding

This research was funded by grants from the National Natural Science Foundation of China (82070897 and 32471172 to K.L., 82472393 to Q.Z., 82000735 to K.W.), by Key Research Project of Taizhou School of Clinical Medicine, Nanjing Medical University (TZKY20230307 to K.L. and S.Y.). This work was also supported by the Taizhou Basic Public Health Service Application Research Project (TPH202204 to S.Y.), by the Taizhou People's Hospital Hospital-level Scientific Research Fund Project (ZL202219 to S.Y.), and by the Natural Science Foundation of Jiangsu Province, China (BK20200118 to K.W.).

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