MiR-200c-3p Contrasts PD-L1 Induction by Combinatorial Therapies and Slows Proliferation of Epithelial Ovarian Cancer through Downregulation of β-Catenin and c-Myc.
Eleni AnastasiadouElena MessinaTiziana SanaviaLucia MundoFederica FarinellaStefano LazziFrancesca MegiorniSimona CeccarelliPaola PontecorviFrancesco MaramponCira Rosaria Tiziana di GioiaGiorgia PerniolaPierluigi Benedetti PaniciLorenzo LeonciniPankaj TrivediAndrea LenziCinzia MarchesePublished in: Cells (2021)
Conventional/targeted chemotherapies and ionizing radiation (IR) are being used both as monotherapies and in combination for the treatment of epithelial ovarian cancer (EOC). Several studies show that these therapies might favor oncogenic signaling and impede anti-tumor responses. MiR-200c is considered a master regulator of EOC-related oncogenes. In this study, we sought to investigate if chemotherapy and IR could influence the expression of miR-200c-3p and its target genes, like the immune checkpoint PD-L1 and other oncogenes in a cohort of EOC patients' biopsies. Indeed, PD-L1 expression was induced, while miR-200c-3p was significantly reduced in these biopsies post-therapy. The effect of miR-200c-3p target genes was assessed in miR-200c transfected SKOV3 cells untreated and treated with olaparib and IR alone. Under all experimental conditions, miR-200c-3p concomitantly reduced PD-L1, c-Myc and β-catenin expression and sensitized ovarian cancer cells to olaparib and irradiation. In silico analyses further confirmed the anti-correlation between miR-200c-3p with c-Myc and β-catenin in 46 OC cell lines and showed that a higher miR-200c-3p expression associates with a less tumorigenic microenvironment. These findings provide new insights into how miR-200c-3p could be used to hold in check the adverse effects of conventional chemotherapy, targeted therapy and radiation therapy, and offer a novel therapeutic strategy for EOC.
Keyphrases
- cell proliferation
- long non coding rna
- long noncoding rna
- poor prognosis
- radiation therapy
- epithelial mesenchymal transition
- stem cells
- transcription factor
- gene expression
- emergency department
- signaling pathway
- dna methylation
- binding protein
- newly diagnosed
- ejection fraction
- genome wide
- locally advanced
- smoking cessation
- endothelial cells
- rectal cancer