Abstract 1553: miR-1 targets Cdk6 and controls cell cycle progression and apoptosis in colitis-associated dysplasia

Abstract

Abstract Detection of colorectal dysplasia during surveillance colonoscopy is currently the best method of determining risk of colitis-associated colorectal cancer (CAC). An understanding of the early molecular changes associated with the development of these lesions will inform the identification of new biomarkers for earlier detection. miRNAs (miRs), highly conserved noncoding RNAs, show great promise as stable, tissue-specific biomarkers of neoplasia. We previously identified 12 miRs that are differentially-expressed in colitis-associated dysplasias (flat and polypoid) vs. inflamed colonic mucosa from mice treated with AOM/DSS. miR-1, a putative tumor suppressor, was downregulated in colitis-associated dysplasias. Analysis of the mRNA expression profile of AOM/DSS-induced dysplasias and prediction of the interactions between the miRs and their targets led to the selection of the Cdk6 as the target of miR-1 to be further investigated, based on its: 1) upregulation in AOM/DSS-induced dysplasia; and 2) association with cell cycle progression and inflammatory signaling. The goal of the present study was to validate the predicted interaction between miR-1 and Cdk6 and assess the biological function of miR-1 in vitro. The ability of miR-1 to interact with the 3’UTR of Cdk6 mRNA was assessed using a dual luciferase assay. Co-transfection of HCT116 or RKO colon carcinoma cells with Cdk6-WT and miR-1 mimics led to a significant reduction in relative luciferase activity in both cell lines (30%, p=0.0117 and 47%, p=0.0269; respectively). Transfection with the Cdk6-Mut did not alter relative luciferase activity, confirming the Cdk6 binding site was specific for miR-1. The biological function of miR-1 was assessed in HCT116 and RKO cells reverse-transfected with miR-1 and cel-miR-67 (negative control) for 48 hrs. Apoptosis (AnnexinV+ cells) and cell cycle progression (% of cells in G0/G1, G2/M and S phase) were evaluated by flow cytometry, and proliferation by cell count (Trypan Blue). HCT116 and RKO transfected with the miR-1 mimic exhibited a higher proportion of apoptotic cells than the negative control (30% and 20% increase, p=0.0022 and 0.0013, respectively). Cell cycle analyses revealed the miR-1 mimic induced cell cycle arrest (G0/G1) in both cell lines (p<0.05). In HCT116 cells, this was accompanied by a reduction in the percentage of cells in G2/M (p=0.002) and S (p<0.001) phase. No effect of miR-1 on total cell number was observed. These results demonstrate that Cdk6 is a direct target of miR-1, and suggest that downregulation of this miR in dysplastic lesions contributes to CAC by inducing cell cycle progression and inhibiting apoptosis. These data provide novel insight into the early molecular changes that accompany the development of colitis-associated dysplasia and may serve as biomarkers for early detection of neoplasia. Supported by the Timothy P. and Aurora M. Hughes Fund for Colon Cancer Research. Citation Format: Mariana F. Fragoso, Geysson J. Fernandez, Lisa Vanderveer, Harry S. Cooper, Michael Slifker, Margie L. Clapper. miR-1 targets Cdk6 and controls cell cycle progression and apoptosis in colitis-associated dysplasia [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 1553.