ABSTRACT
OBJECTIVES@#To investigate the effect of microRNA (miR-184) on regulating the genesis, development and proliferation of glioma cells.@*METHODS@#Lipidosome was used to transfect miR-184 mimic and inhibitor to glioma cell line, and the cell proliferation ability changes were determined by MTT and plate cloning experiment after the transfection. WB test was used to measure the levels of cyclinD1, p27 and FOXO3. Meanwhile, QPCR was used to detect miR-184 expression in glioma cell line, glioma tissues and adjacent tissues. Luciferase experiment was used to test 3'UTR gene targeting regulation of miR-184 and FOXO3.@*RESULTS@#QPCR results showed a significant lower miR-184 expression level in glioma cell line and glioma tissues than that in juxtacancerous tissue. MTT and plate cloning experiments have shown that after over-expressing of miR-184, the cell proliferation capacity of glioma U87 and T98G was significantly increased, which was significantly inhibited after the inhibition of miR-184. WB results showed a lower expression level of p27 in U87 and T98G cells, and a higher expression level of cyclinD1 after over-expressing of miR-184 was observed. However, a lower expression level of cyclinD1 and a higher expression level of p27 after the inhibition of miR-184. The luciferase activity was inhibited after the over-expressing of miR-184.@*CONCLUSIONS@#MiR-184 can affect the proliferation abilities of glioma cells and regulate the cell cycle related protein. It plays an important role in the occurrence and development of gliomas.
ABSTRACT
Objective To explore the role of miR-184 in Oxygen-Glucose-Deprivation (OGD) induced SK-N-SH cell ischemic injury and its regulation on AKT2 level. Method We used a combination of oxygen and glucose deprivation to imitate ischemic conditions in vivo. MiR-184 mimic and inhibitor were transfected into SK-N-SH cell to alter miR-184 levels. The expression of miR-184 and AKT2 were determined by using Real-time PCR. The extent of SK-N-SH cell survival rate was assessed by thiazolyl blue tetrazolium bromide (MTT) assay. Result Here, we observed that miR-184 was significantly inhibited in SK-N-SH cell after OGD (P<0.05). The changes of miR-184 level altered the expression of AKT2 mRNA. In addition, alteration of miR-184expressionsignificantly affected cell survival rate after OGD. Conclusion miR-184 plays an important role in ischemic injury through negatively regulating AKT2 level, which may provide a potential therapeutic target for ischemic stroke in miRNA levels.