MicroRNAs (miRNAs) are small, non-coding RNAs that participate in the regulation of gene expression. In this study, we demonstrate that miR-7 was downregulated in hepatocellular carcinoma (HCC) tissues compared to adjacent non-tumor tissue. Over-expression of miR-7 in QGY-7703 and HepG2 cell lines inhibited colony formation and induced G1/S phase arrest, whereas knockdown of miR-7 produced the opposite phenotype. A tumor suppressor gene, CUL5, was identified as a direct target of miR-7, and CUL-5 is upregulated upon the binding of miR-7 to its 3 0 UTR. Furthermore, suppression of CUL5 also suppressed cell colony formation and induced cell cycle arrest. Ectopic expression of CUL5 abrogated the effects of miR-7 inhibition on QGY-7703 and HepG2 cell lines. These results indicate that miR-7 suppresses colony formation and causes cell cycle arrest via upregulation of CUL5, and it may function as a tumor suppressor in HCC.
BackgroundOccurrence and progression of hepatocellular carcinoma (HCC) are associated with hepatitis B virus (HBV) infection. miR-1269b is up-regulated in HCC cells and tissues. However, the regulation of miR-1269b expression by HBV and the mechanism underlying the oncogenic activity of miR-1269b in HCC are unclear.MethodsReverse transcription quantitative PCR (RT-qPCR) was used to measure the expression of miR-1269b and target genes in HCC tissues and cell lines. Western blot analysis was used to assess the expression of miR-1269b target genes and related proteins. Using luciferase reporter assays and EMSA, we identified the factors regulating the transcriptional level of miR-1269b. Colony formation, flow cytometry and cell migration assays were performed to evaluate the phenotypic changes caused by miR-1269b and its target in HCC cells.ResultsWe demonstrated that the expression levels of pre-miR-1269b and miR-1269b in HBV-positive HepG2.2.15 cells were dramatically increased compared with HBV-negative HepG2 cells. HBx was shown to facilitate translocation of NF-κB from the cytoplasm to the nucleus, and NF-κB binds to the promoter of miR-1269b to enhance its transcription. miR-1269b targets and up-regulates CDC40, a cell division cycle 40 homolog. CDC40 increases cell cycle progression, cell proliferation and migration. Rescue experiment indicated that CDC40 promotes malignancy induced by miR-1269b in HCC cells.ConclusionWe found that HBx activates NF-κB to promote the expression of miR1269b, which augments CDC40 expression, contributing to malignancy in HCC. Our findings provide insights into the mechanisms underlying HBV-induced hepatocarcinogenesis.
Ovarian cancer (OC) is the most lethal gynecological cancer. The molecular mechanism of it is complicated, and numerous researches suggest that microRNAs are key regulators for it. This study was to investigate the pivotal role of miR-629 in the progression of OC and to reveal the possible molecular mechanism of its action. Testis-specific Y-like protein 5 (TSPYL5) is a tumor suppressor gene in various cancers, but there is little for its role in OC. OC OVCAR3 cells were transfected with the miR-629 vector, miR-629 inhibitor, and/or small interfering RNA (siRNA) targeting TSPYL5 (si-TSPYL5), respectively. After transfection, cell apoptosis, the ability of migration, and invasion were explored, as well as the level of miR-629 and TSPYL5 protein expression were detected by quantitative polymerase chain reaction and western blot. Compared with the control, there was increasing of miR-629, and decreasing of TSPYL5 and caspase 3 in OC tissue. Overexpression of miR-629 promoted the cell ability of migration and invasion and reduced OC cell apoptosis. In addition, elevated cancer inhibition ability of TSPYL5 induced by the miR-629 inhibitor was significantly blocked by inhibition of TSPYL5 (si-TSPYL5). All the above results suggested that miR-629 could promote OC proliferation, migration, and invasion by directly suppressing TSPYL5 expression, and inhibition of miR-629 might serve as a therapeutic target for OC.
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