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  • A20-mediated deubiquitination of ERα in the microenvironment of CD163+ macrophages sensitizes endometrial cancer cells to estrogen.

A20-mediated deubiquitination of ERα in the microenvironment of CD163+ macrophages sensitizes endometrial cancer cells to estrogen.

Cancer letters (2018-11-14)
Qiaoying Lv, Liying Xie, Yali Cheng, Yue Shi, Weiwei Shan, Chengcheng Ning, Bingying Xie, Bingyi Yang, Xuezhen Luo, Qizhi He, Qin Zhu, Yingli Zhang, Zhenbo Zhang, Chenji Wang, Xiaojun Chen, Congjian Xu
ABSTRACT

Continuous estrogen signaling is thought to be the main mechanism causing endometrial cancer (EC). Studies have demonstrated that CD163+ macrophages could promote the development of estrogen-dependent EC, but the mechanisms involved remain unclear. We found that CD163+ macrophages were the dominant macrophages in atypical endometrial hyperplasia and cancer, and their infiltration was positively associated with ERα expression. CD163+ macrophages mainly increased ERα protein levels but with little upregulatory effect on ESR1 (ERα coding gene) transcripts. The ubiquitin-editing enzyme A20, screened from the endometrial microarray obtained from mice receiving a high-fat diet and sustained estrogen-intervened, was highly expressed in endometrial lesions rich with CD163+ macrophages, and positively correlated with ERα expression. Similarly, A20 and ERα were both upregulated by CD163+ macrophages via cytokines such as IL1α, IL17A and TNFα. Mechanistically, A20 overexpression in EC cells prolonged ERα protein half-life without affecting ESR1 transcripts. A20 increased functional ERα protein levels and enhanced estrogen-driven EC cell proliferation through preventing ERα protein degradation by its deubiquitinase activity. Our study revealed that A20-mediated deubiquitination of ERα might be an important mechanism by which CD163+ macrophages sensitize EC cells to estrogen.