Apigenin inhibits growth of melanoma by suppressing miR-512-3p and promoting the G1 phase of cell cycle involving the p27 Kip1 protein.

In the present study, we screened multiple melanoma cell lines for treatment of Apigenin and miRNA expression, also studied the role of miR-512-3p in melanoma. RT-PCR analysis was done for screening miRNA in melanoma cell lines (WM1361B, WM983A, WM1341D, SK-MEL-3, SH-4, SK-MEL-24 and RPMI-7951) compared to normal human epidermal melanocytes. Colony formation assay for cell viability studies, cell cycle by flowcytometry and protein expression by immunoblot analysis. For in vivo analysis tumour xenograft mouse model was created. Immunohistochemistry was done for PCNA positive cells. For expression of miR-512-3p in tumour tissues fluorescence in situ hybridization was done. In silico studies were done by molecular docking studies. The WM1361B and WM983A cell lines showed overexpression of miR-512-3p and increased cell proliferation compared to normal human epidermal melanocytes. Treatment of anti-miR-512-3p to WM1361B and WM983A cells halted cell proliferation and also caused G1-phase arrest. We studied the effect of Apigenin on the expression levels of miR-512-3p and associated molecular targets. Apigenin treatment in WM1361B and WM983A cells showed inhibition in expression of miR-512-3p, arrest of G1 phase of cell cycle, cytotoxicity and revival of p27 Kip1. Apigenin treatment significantly suppressed the growth of WM1361B in tumour induced mice, the activity was associated with decreased levels of miR-512-3p, tumour cell proliferation and increased levels of p27 Kip1 protein. Docking studies confirm potential affinity of Apigenin for p27 Kip1. Apigenin acts as an inhibitor of miR-512-3p by suppressing growth of melanoma both in vitro and in vivo targeting the p27 Kip1 axis.