Citation
- Authors: Li, D., Liu, X., Lin, L., Hou, J., Li, N., Wang, C., Wang, P., Zhang, Q., Zhang, P., Zhou, W., Wang, Z., Ding, G., Zhuang, S. M., Zheng, L., Tao, W., Cao, X.
- Year: 2011
- Journal: J Biol Chem 286 36677-85
- Applications: in vitro / mimic miRNA / INTERFERin
- Cell types:
- Name: Hep G2
Description: Human hepatocarcinoma cells - Name: Huh7
Description: Human hepatocarcinoma cells
Known as: Huh7, Huh 7 - Name: SMMC-7721
Description: Human hepatoma carcinoma cells
- Name: Hep G2
Method
50 nM
Abstract
In our in-depth analysis carried out by the Illumina Solexa massive parallel signature sequencing, microRNA-99a (miR-99a) was found to be the sixth abundant microRNA in the miRNome of normal human liver but was markedly down-regulated in hepatocellular carcinoma (HCC). Compelling evidence has suggested the important roles of microRNAs in HCC development. However, the biological function of miR-99a deregulation in HCC remains unknown. In this study, we found that miR-99a was remarkably decreased in HCC tissues and cell lines. Importantly, lower miR-99a expression in HCC tissues significantly correlated with shorter survival of HCC patients, and miR-99a was identified to be an independent predictor for the prognosis of HCC patients. Furthermore, restoration of miR-99a dramatically suppressed HCC cell growth in vitro by inducing the G(1) phase cell cycle arrest. Intratumoral injection of cholesterol-conjugated miR-99a mimics significantly inhibited tumor growth and reduced the alpha-fetoprotein level in HCC-bearing nude mice. Insulin-like growth factor 1 receptor (IGF-1R) and mammalian target of rapamycin (mTOR) were further characterized as the direct targets of miR-99a. Furthermore, protein levels of IGF-1R and mTOR were found to be inversely correlated with miR-99a expression in HCC tissues. miR-99a mimics inhibited IGF-1R and mTOR pathways and subsequently suppressed expression of cell cycle-related proteins, including cyclin D1 in HCC cells. Conclusively, miR-99a expression was frequently down-regulated in HCC tissues and correlates with the prognosis of HCC patients, thus proposing miR-99a as a prospective prognosis predictor of HCC. miR-99a suppresses HCC growth by inducing cell cycle arrest, suggesting miR-99a as potential tumor suppressor for HCC therapeutics.