1. USP15 inhibits hypoxia‐induced IL‐6 signaling by deubiquitinating and stabilizing MeCP2.
- Author
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Zhang, Zi‐Tong, Niu, Shu‐Xuan, Yu, Chen‐Hao, Wan, Shi‐Yuan, Wang, Jiao, Liu, Cheng‐Yu, Zheng, Ling, Huang, Kun, and Zhang, Yu
- Subjects
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GENETIC transcription , *DEUBIQUITINATING enzymes , *RETT syndrome , *COBALT chloride , *CARRIER proteins - Abstract
Methyl‐CpG binding protein 2 (MeCP2) is an important X‐linked DNA methylation reader and a key heterochromatin organizer. The expression level of MeCP2 is crucial, as indicated by the observation that loss‐of‐function mutations of MECP2 cause Rett syndrome, whereas an extra copy spanning the MECP2 locus results in MECP2 duplication syndrome, both being progressive neurodevelopmental disorders. Our previous study demonstrated that MeCP2 protein expression is rapidly induced by renal ischemia–reperfusion injury (IRI) and protects the kidney from IRI through transcriptionally repressing the interleukin‐6 (IL‐6)/signal transducer and activator of transcription 3 signaling pathway. However, the mechanisms underlying the upregulation of MeCP2 have remained elusive. Here, by using two hypoxia cell models, hypoxia and reoxygenation and cobalt chloride stimulation, we confirmed that the removal of lysine 48‐linked ubiquitination from MeCP2 prevented its proteasome‐dependent degradation under hypoxic conditions. Through unbiased screening based on a deubiquitinating enzymes library, we identified ubiquitin‐specific protease 15 (USP15) as a stabilizer of MeCP2. Further studies revealed that USP15 could attenuate hypoxia‐induced MeCP2 degradation by cleaving lysine 48‐linked ubiquitin chains from MeCP2, primarily targeting its C‐terminal domain. Consistently, USP15 inhibited hypoxia‐induced signal transducer and activator of transcription 3 activation, resulting in reduced transcription of IL‐6 downstream genes. In summary, our study reveals an important role for USP15 in the maintenance of MeCP2 stability and the regulation of IL‐6 signaling. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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