Abstract
Breast cancer has the highest incidence and mortality in women worldwide. There are 70% of breast cancers considered as estrogen receptor α (ERα) positive. Therefore, the ERα-targeted therapy has become one of the most effective solution for patients with breast cancer. Whereas a better understanding of ERα regulation is critical to shape evolutional treatments for breast cancer. By exploring the regulatory mechanisms of ERα at levels of post-translational modifications, we identified the deubiquitinase USP15 as a novel protector for preventing ERα degradation and a critical driver for breast cancer progression. Specifically, we demonstrated that USP15 promoted the proliferation of ERα+, but not ERα- breast cancer, in vivo and in vitro. Meanwhile, USP15 knockdown notably enhanced the antitumor activities of tamoxifen on breast cancer cells. Importantly, USP15 knockdown induced the downregulation of ERα protein via promoting its K48-linked ubiquitination, which is required for proliferative inhibition of breast cancer cells. These findings not only provide a novel treatment for overcoming resistance to endocrine therapy, but also represent a therapeutic strategy on ERα degradation by targeting USP15-ERα axis.
Highlights
Breast cancer (BC) is the most prevalent cancer in women[1]
The results showed that HCC1937, MDA-MB361, SK-BR3 and BT474 cell lines were not as sensitive as estrogen receptor α (ERα)+ BCa cells (T47D and MCF-7)
All these findings indicate that ERα may be a critical target for USP15 promoted cell proliferation
Summary
On the basis of various molecular markers, the breast cancer is classified into estrogen receptor (ER) positive, progesterone receptor (PR) positive, human epidermal growth factor 2 (HER2/ERBB2) positive and triple-negative[2]. Among these receptors, the ER is expressed in approximately 70% of BCs and recognized as the most important therapeutic target for curing this disease[3]. ERα, a hormoneregulated transcription factor, is expressed as a nuclear receptor in breast epithelial cells. The drug therapy targeting ERα is the mainstay of breast cancer treatment[5,6]
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