Abstract
To explore the molecular mechanism of circRNA CRIM1 in the regulation of bladder cancer by targeting the miR182/Foxo3a axis. 50 pairs of cancer tissues and para-cancerous tissues of patients with bladder cancer were collected. RT-PCR method was used to detect the expression of CRIM1 and miR-182. The association between circRNA CRIM1 and clinical data was analyzed. qPCR was used to measure the expression of circRNA CRIM1 and miR-182 in bladder cancer cell UMUC3 and endothelial cell line HUVEC. CRIM1 genes and miR-182 in UMUC3 cell lines were overexpressed and silenced, respectively, to investigate their effects on invasion and migration of bladder cancer, and to detect the changes of miR182/Foxo3a expression. The association between circRNA CRIM1 and miR182/Foxo3a was determined by bioinformatics analysis. The results showed that there was a significant association between the expression of circRNA CRIM1 and distal migration. The expression of CRIM1 in adjacent tissues was significantly down-regulated and negatively correlated with distal migration. The overexpression of circRNA CRIM1 reduced migration and invasion processes in bladder cancer cells. After circRNA CRIM1 was overexpressed, the miR-182 was significantly down-regulated. The expression levels of Foxo3a mRNA and proteins were up-regulated after miR-182 silencing of bladder cancer cell line UMUC3. miR-182 silencing inhibited invasion and migration of cancer cells to some extent. In bladder cancer cells and tissues, CRIM1 and Foxo3a were significantly down-regulated, miR-182 was significantly up-regulated. circRNA CRIM1 regulated the migration and invasion of bladder cancer by targeting the miR182/Foxo3a axis.
Published Version
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