Cervical cancer is a female cancer with the second highest motility over the world. It is urgent to find new therapeutic methods based on long-coding RNAs and microRNAs. UCA1 was proved to be related with many human cancer types, but limited researches have been performed for the inner associations between UCA1 and cervical cancer. Eighty females who were undergoing surgeries were recruited for study in our research. We took the cervical cancer tissues and cells from them. Massive experiments and analysis were conducted to investigate the gene expressions and protein expressions about UCA1, KIF20A, and miR-204 in normal cells and cancer cells. The techniques contain real-time PCR, migration/invasion assay, western blot, in vivo experiments, and so on.We found that UCA1 expression was greatly up-regulated in cervical cancer tissues and cell lines. Our in vitro assays revealed that the suppressing of UCA1 could reduce cervical cancer cells proliferation, migration, and invasion. In addition, we found that lncRNA UCA1 could sponge miR-204 and promote the proliferation and invasion of cervical cancer cells via the up-regulating of KIF20A expression. As a result, the inhibiting of UCA1 could lower cervical cancer (CC) cells growth rate in vivo.Our results identified that UCA1 could serve as an oncogene in cervical cancer cell progression through the modulating of miR-204/KIF20A axis. It gives novel insights to the searching of novel therapeutic methods for cervical cancer.
Keywords: KIF20A; LncRNA UCA1; cervical cancer; miR-204.