c-Myc knockdown restores tamoxifen sensitivity in triple-negative breast cancer by reactivating the expression of ERα: the central role of miR-152 and miR-148a.

Background: Poor prognosis of triple-negative breast cancer (TNBC) is owing to its intrinsic heterogeneity and lack of targeted therapies. Emerging evidence has characterized that targeting c-Myc might be a promising way to treat TNBC.

Methods: c-Myc knocked down TNBC cells were generated and the tamoxifen sensitivity was determined. Methylation-specific PCR analysis was used to detect the methylation status of ERα promoter, and c-Myc-mediated miRNA transcription was examined using chromatin immunoprecipitation and dual-luciferase reporter assays. The in vivo tamoxifen sensitivity was determined by mouse xenograft model.

Results: c-Myc knockdown in TNBC cells leads to the reactivation of ERα and consequent acquisition its sensitivity to tamoxifen. c-Myc depletion decreased the methylation in the promoter of ERα and DNMT1 was identified as the main executor. c-Myc knockdown-induced tamoxifen sensitivity was reversed by DNMT1 overexpression. The expression of miR-152-3p and miR-148a-3p was largely induced in c-Myc knockdown TNBC cells, and both miR-152-3p and miR-148a-3p could target DNMT1 to regulate its expression. c-Myc binds to the promoter regions of miR-152-3p and miR-148a-3p to exert transcriptional suppression. By suppressing miR-152-3p or miR-148a-3p expression using inhibitors, enhanced sensitivity to tamoxifen induced by c-Myc knockdown was partially reversed. In vivo xenograft tumor model demonstrated that c-Myc knockdown mildly inhibits the growth of tumor, and a dramatic decline was observed when administrated with tamoxifen combined with c-Myc knockdown.

Conclusion: Our study first illustrated that c-Myc knockdown in TNBC cells reactivate ERα expression in a miR-152/miR-148a-DNMT1-dependent manner, and brought new sights into treating TNBC using hormonal therapies.