CircRAD54L2 promotes triple-negative breast cancer progression by regulating the miR-888 family/PDK1 axis

Abstract

BackgroundThe long-term prognosis of breast cancer with metastasis remains extremely poor. Genetic alterations in tumor cells result in cellular heterogeneity, promoting cancer cells invasion and colonization in some organs during the metastatic process. CircRNAs are very promising as critical biological markers and precise diagnoses in identifying disease mechanisms and developing new methods for effective treatment. However, the role of aberrant expression of circRNAs in breast cancer progression remains largely unknown. MethodsRNase R treatment and quantitative RT-PCR (qRT-PCR) were performed for circRNA detection. Transwell chamber assays were used to examine the chemotactic migration and invasion of breast cancer cells. ResultsThis study identified and characterized the circRAD54L2 originating from exon 1, 2, 3, and 4 of the RAD54L2 gene. Importantly, we found that circRAD54L2, rather than RAD54L2 linear mRNA, was significantly upregulated in breast cancer cell lines. Furthermore, we found that inhibiting circRAD54L2 expression markedly reduced the invasion, metastasis, and proliferation of breast cancer cells via sponging of the miR-888 family, which downregulated the expression of pyruvate dehydrogenase kinase 1 (PDK1). ConclusionOur results showed that circRAD54L2 could regulate PDK1 expression by sponging the miR-888 family competing for the ceRNA mechanism, indicating that circRAD54L2 may act as an essential upstream regulator and providing further mechanistic evidence to support the notion that circRAD54L2/miR-888s/PDK1 is a promising therapeutic target in the treatment of breast cancer.