MiR-106b inhibition suppresses cell proliferation and induces G0/G1 Captisol arrest As-miR-106b and miR-106b mimic oligonucleotides were employed to change miR-106b expression in Hep-2 and TU212 cells to evaluate the significance of miR-106b in laryngeal carcinoma. In both two cells, miR-106b expression significantly decreased in As-miR-106b group and increased in Nepicastat miR-106b
group 48 h after transfection (Figure 2A). MTT assay data showed that a statistically significant cell proliferation inhibition was found in As-miR-106b group of Hep-2 cells, compared with control groups respectively. Similar trend was observed in TU212 cells (Figure 2B). There was no difference between blank control group and negative control group in the whole experiment. Next we analyzed the cell cycle distribution by FACS. As-miR-106b treated cells represented significant ascends in G0/G1 phase in comparison to untreated Hep-2 and TU212 cells (Figure 2C). However, we did not observe a significant difference in the rate of growth inhibition between miR-106b group and blank control group; although a slightly increasing trend of cell survival rate and G0/G1 phase was seen in Hep-2 and TU212 cells. These results raise the possibility that JPH203 there exists a threshold value for miR-106b up-regulation.
Taken together, reduction of miR-106b can induce cells arrest at G0/G1 phases, thereby inhibiting cell
proliferation in laryngeal carcinoma cells. Figure 2 Reduction of miR-106b Metalloexopeptidase suppressed laryngeal carcinoma cell proliferation. (A) Expression levels of miR-106b in laryngeal carcinoma cells 48 h after As-miR-106b and miR-106b treatment. (B) MTT assay displayed that cells treated with As-miR-106b proliferated at a significantly lower rate than control groups after transfection. (C) After 48 h treatment, cells were harvested and performed by cell cycle assay. Data are expressed as the mean ± SD of 3 independent experiments. * P < 0.05 compared with control group. RB is a direct target of miR-106b To further explore the molecular mechanism of As-miR-106b induced cell cycle in laryngeal carcinoma cells, bioinformatics analysis of miR-106b potential target genes was performed through the databases TargetScan http://www.targetscan.org and PicTar http://www.pictar.bio.nyu.edu, We found that tumor suppressor RB associated with cell cycle contained the highly conserved putative miR-106b binding sites (Figure 3A). To determine whether RB is directly regulated by miR-106b, Western blot analysis and Luciferase reporter assay were employed. Western blot analysis showed that a notable induction of RB expression was detected after knockdown of miR-106b in Hep-2 and TU212 cells (Figure 3B). Further, we created pGL3-WT-RB-3′UTR, and pGL3-MUT-RB-3′UTR plasmids.