Background: MicroRNAs (miRNAs) are small, single-stranded, noncoding RNAs, which usually bind to the 3'-untranslated region of target mRNAs and are capable of inducing posttranscriptional gene regulation by blocking translation or by degrading the target mRNA. However, the expression level of miR-23 in radiation induced carcinogenesis is largely unknown.
Methods: Radiation induced thymic lymphoma model in BALB/c mice was set up. miR-23a & miR-23b miRNA levels in different tissues and cells were detected by real-time qPCR. miR-23a/b inhibitor and miR-23a/b mimics were transfected to lymphoma cells and the target of miR-23a/b was identified by microRNA target prediction and Luciferase assays.
Results: We found that miR-23a & miR-23b were up-regulated in radiation induced thymic lymphoma tissue samples. Cell death and apoptosis were increased by miR-23a/b inhibitor and decreased by miR-23a/b mimics in lymphoma cells. Computational analysis found a putative target site of miR-23a/b in the 3'UTR of Fas mRNA, which was verified by luciferase reporter assay. Forced over-expression of miR-23a/b decreased the level of Fas protein. Moreover, over-expression of Fas rescued the pro-proliferation effect of miR-23, indicating Fas is a direct mediator of miR-23 functions. Furthermore, contrast to miR-23a/b which was up regulated, the Fas expression level was down-regulated and inversely correlated with miR-23 in split radiation induced lymphoma tissue samples. Finally, our data also indicates that miR-23a could repress Fas much more potent than miR-23b and the additional region besides conserved seed pairing enables miR-23a's higher regulation.
Conclusions: In this study, using a radiation induced thymic lymphoma model in BALB/c mice, We conclude that the expression of miR-23a/b is up-regulated in radiation-induced thymic lymphoma and it maybe a novel therapeutic target of that cancer.
© 2014 S. Karger AG, Basel.