High GPER expression in triple-negative breast cancer is linked to pro-metastatic pathways and predicts poor patient outcomes.

Triple-negative breast cancer (TNBC) is a particularly aggressive and heterogeneous disease with few effective targeted therapies and precision therapeutic options over a long period. It is generally considered that TNBC is an estrogen-independent breast cancer, while a new estrogen receptor, namely G protein-coupled estrogen receptor (GPER), is demonstrated to mediate estrogenic actions in TNBC. Based on our transcriptomic analysis, expression of GPER was correlated with clinicopathological variables and survival of 360 TNBC patients. GPER expression at mRNA level was significantly correlated with immunohistochemistry scoring in 12 randomly chosen samples. According to the cutoff value, 26.4% (95/360) of patients showed high GPER expression and significant correlation with the mRNA subtype of TNBC (P = 0.001), total metastatic events (P = 0.019) and liver metastasis (P = 0.011). In quantitative comparison, GPER abundance is correlated with the high-risk subtype of TNBC. At a median follow-up interval of 67.1 months, a significant trend towards reduced distant metastasis-free survival (DMFS) (P = 0.014) was found by Kaplan-Meier analysis in patients with high GPER expression. Furthermore, univariate analysis confirmed that GPER was a significant prognostic factor for DMFS in TNBC patients. Besides, high GPER expression was significantly linked to the worse survival in patients with lymph node metastasis, TNM stage III as well as nuclear grade G3 tumors. Transcriptome-based bioinformatics analysis revealed that GPER was linked to pro-metastatic pathways in our cohort. These results may supply new insights into GPER-mediated estrogen carcinogenesis in TNBC, thus providing a potential strategy for endocrine therapy of TNBC.

Estrogen-regulated PTTG1 promotes breast cancer progression by regulating cyclin kinase expression.

BACKGROUND: The present study aims to investigate the effects of pituitary tumor transforming gene (PTTG) 1 on breast cancer and its underlying mechanism. METHODS: GEO data set was applied to analyze the relationship between PTTG1 and survival status and the TCGA breast cancer dataset was used to explore its possible targets. The stable cell lines including PTTG1 knockdown cells, estrogen receptor (ESR) 1 knockdown cells, and PTTG1 overexpression cells were constructed. MTT was used to determine cell viabilities. Propidium iodide (PI) staining and flow cytometry were used to analyze the cell cycle. Quantitative polymerase chain reaction (qPCR) was employed to determine the mRNA expressions. Points mutations and luciferase reporter assays were used to determine the binding sites of estrogen. RESULTS: PTTG1 was associated with poor survival rates in breast cancer. In vitro study demonstrated that PTTG1 affected cell viabilities of MCF7 and T47D cells. Besides, PTTG1 affected cell cycle arrest of breast cancer cells. Overexpression of PTTG1 led to more breast cancer cells distributed in S phase. The levels of PTTG1 were associated with estrogen and further results showed that the levels of PTTG1 were positively correlated to tamoxifen resistance. Two genes including CCNA2 and CCNB2 were identified to be possible targets of PTTG1. CONCLUSION: Estrogen-regulated PTTG1 promotes the development of breast cancer cells by the regulation of the cell cycle.

[Regulation of p14(ARF) expression and induction of cell apoptosis with c-myc in a p53-independent pathway].

OBJECTIVE: To explore the regulation of p14(ARF) expression and induction of cell apoptosis with the mutant and wild-type c-myc genes in a p53-independent pathway of signal transduction. METHODS: The mutant and wild-type c-myc genes were transfected by lentivirus into HCC1937 to form the stable over-expression cell lines. Uninfected cells and lentivirus-infected ones carrying no c-myc gene acted as blank and infection controls respectively. And c-myc and p14(ARF) mRNA and protein, proliferation and apoptosis in HCC1937 with mutant and wild-type c-myc were detected by reverse transcription (RT)-PCR, Western blotting, thiazolyl blue tetrazolium bromide (MTT) and terminal deoxynucleotidyl transferase mediated X-dUTP nick end labeling (TUNEL) respectively. RESULTS: After the lentivirus-mediated gene transfer, c-myc mRNA and protein expression increased in the mutant and wild-type groups. p14(ARF) mRNA and protein increased in the wild-type group and the mutant group and there were significant difference between them with blank and infection controls (mutant groups: 0.560 ± 0.010, 0.154 ± 0.011, wild-type groups: 0.651 ± 0.010, 0.382 ± 0.013, both P < 0.05). The group of mutant and wild-type c-myc could promote the proliferation of cell growth. And c-myc was more effective to induce apoptosis in the wild-type group as compared with the mutant group (7.1% ± 0.7% vs 3.2% ± 0.4%, P < 0.05). CONCLUSIONS: In a p53-independent pathway, the over-expression of wild-type c-myc obviously up-regulates the expression of p14(ARF). And cell apoptosis may be induced through the regulation of p14(ARF)-related gene, keep balance of proliferative promotion and apoptosis induction. When there is a loss-of-function of mutant c-myc, tumorigenicity increases via a disturbed balance of proliferative promotion and apoptosis induction.