Breast cancer is a significant global health issue, impacting millions of women worldwide. estrogen receptor positive breast cancer, the most common subtype, accounts for over 70% of cases. While hormone-based therapies like tamoxifen are effective, resistance develops in many patients, posing clinical challenges. Recent research has focused on the molecular mechanisms behind this resistance, aiming to identify new therapeutic targets.
This thesis of Zainab Al Hashami-Al Aamri investigates the regulatory role of microRNAs (miRNAs) in estrogen receptor positive breast cancer, particularly their impact on estrogen receptor expression, cell proliferation, and tamoxifen sensitivity. Through a genome-wide miRNA high-throughput screen, we analysed regulatory networks involving miRNAs to understand their mechanisms better.
Two miRNAs affected estrogen receptor expression in MCF7 cells, including miR-130a and miR-18b/miR-106a. MiR-18b was highlighted as a key regulator, influencing ER expression and cell proliferation. Analysis of potential targets of miR-18b identified amongst others target genes like ESR1, HMGCS1, and SON, supporting a role of miR-18b in these processes.
Additionally, we identified five miRNAs associated with tamoxifen resistance and validated their role in response to tamoxifen for miR-130a, let-7g, and miR-15b/miR-16-2. For miR-130a, 20 genes, including ESR1 and AIB1, were identified as predicted targets influencing tamoxifen sensitivity. Downregulation of ESR1 and AIB1 by miR-130a was confirmed via Western blotting.
These findings underscore the importance of miRNA regulation in estrogen receptor positive breast cancer and pave the way for potential miRNA-based therapeutic strategies to improve treatment outcomes. The research also highlights the complexity of miRNA-mediated regulation and the need for further studies to validate these findings across different breast cancer models.