Abstract
BackgroundBreast cancer is the most common women malignancy worldwide, while estrogen receptor alpha positive type accounts for two third of all breast cancers. Although ER alpha positive breast cancer could be effectively controlled by endocrine therapy, more than half of the cases could develop endocrine resistance, making it an important clinical issue in breast cancer treatment. Thus, decoding the detailed mechanism, which controls ER alpha signaling activation and ER alpha protein stability, is of great importance for the improvement of breast cancer therapy. Several zinc finger proteins were shown to mediate the ubiquitination process and modulate protein stability. Thus, we further explore the function of Zinc finger protein 213 on ER alpha protein stability and tamoxifen resistance.MethodsCCK8 and Edu assay was used to measure cell proliferation. RNA sequence was performed by Ingenuity pathway analysis. The ER alpha signaling activities were measured with luciferase assay, real-time quantitative PCR, and western blotting. Protein stability assay and ubiquitin assay were used to determine ER alpha protein degradation and ubiquitination. The immuno-precipitation was utilized to determine ER alpha and ZNF213 interaction. The ubiquitin-based immuno-precipitation assay was sued to detect specific ubiquitination manner on ER alpha.ResultsWe identified ZNF213 as a novel zinc finger protein, which modulated ER alpha protein. ZNF213 expression correlated with poor outcome in endocrine treated patients. ZNF213 depletion inhibited ER alpha signaling and proliferation in breast cancer cells. Further mechanistic studies showed ZNF213 located in cytosol and nuclear, which modulated ER alpha stability via inhibiting ER alpha K48-linked ubiquitination.ConclusionsOur study reveals an interesting post-translational mechanism between ER alpha and ZNF213 in breast cancer. Targeting ZNF213 could be an appealing strategy for ER alpha positive breast cancer.
Highlights
Breast cancer ranks NO.1 in women cancer incidence in the world [1]
From the TCGA database and ONCOMINE database, we found zinc finger protein 213 (ZNF213) was significantly elevated in breast cancer tissues compared with normal breast tissues (Figures 1A–D)
When we further analyzed the expression of ZNF213 in each type of breast cancers, compared with normal breast cancer tissues, we found ZNF213 was increased in every subtype form the TCGA database (Figure 1E)
Summary
Breast cancer ranks NO. in women cancer incidence in the world [1]. According to recent cancer statistics, approximately 1.6 million newly diagnosed breast cancer cases each year, which accounts for about 20% of all women cancer incidence [2]. Compared with HER2 positive and triple negative breast cancer subtypes, ER alpha positive breast cancer patients show a significant priority in prognosis and could benefit from endocrine therapy [5]. More than half of the patients develop endocrine resistance during the treatment, which becomes a major challenge in both the basic research and clinics [6]. Decoding the potential mechanism, which controls ER alpha expression coupled with ER alpha protein stability, is of great importance to characterize endocrine resistance mechanism. ER alpha positive breast cancer could be effectively controlled by endocrine therapy, more than half of the cases could develop endocrine resistance, making it an important clinical issue in breast cancer treatment. Decoding the detailed mechanism, which controls ER alpha signaling activation and ER alpha protein stability, is of great importance for the improvement of breast cancer therapy. We further explore the function of Zinc finger protein 213 on ER alpha protein stability and tamoxifen resistance
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