MSCs possess potent immunosuppressive capacity. We have reported that mouse MSCs inhibit T cell proliferation and function via nitric oxide. This immune regulatory capacity of MSCs is induced by the inflammatory cytokines IFNγ together with either TNFα or IL-1β. This effect of inflammatory cytokines on MSCs is extraordinary; logarithmic increases in the expression of iNOS and chemokines are often observed. To investigate the molecular mechanisms underlying this robust effect of cytokines, we examined the expression of microRNAs in MSCs before and after cytokine treatment. We found that miR-155 is most significantly up-regulated. Furthermore, our results showed that miR-155 inhibits the immunosuppressive capacity of MSCs by reducing iNOS expression. We further demonstrated that miR-155 targets TAK1-binding protein 2 (TAB2) to regulate iNOS expression. Additionally, knockdown of TAB2 reduced iNOS expression. In summary, our study demonstrated that miR-155 inhibits the immunosuppressive capacity of MSCs by reducing iNOS expression by targeting TAB2. Our data revealed a novel role of miR-155 in regulating the immune modulatory activities of MSCs.
This work was supported by grants from the Ministry of Science and Technology of China (2010CB945600 and 2011DFA30630), Scientific Innovation Project of the Chinese Academy of Science (XDA 01040107 and XDA 01040110), the National Science and Technology Project of China (31010103908 and 81273316), Shanghai Municipal Key Projects of Basic Research (12JC1409200), Shanghai Municipal Natural Science Foundation (12ZR1452600), the Knowledge Innovation Program of Shanghai Institutes for Biological Sciences, and the Chinese Academy of Sciences (2012KIP202).
