Abstract
Mesenchymal stem cells (MSCs) have the inherent ability to migrate to multiple organs and to exert immunosuppressive activity. The aim of this study was to investigate the anti-arthritogenic effects of interleukin (IL)-10-transduced MSCs (IL-10-MSC) on the development of inflammatory arthritis. DBA/1 mice were immunized with type II collagen (CII) to induce inflammatory arthritis and then injected weekly three times with IL-10-MSCs 21 days after primary immunization. Control mice received vehicle or MSCs alone. Serum anti-CII antibody and T cell response to CII were determined. The results showed that cultured IL-10-MSCs were able to secrete high amounts of IL-10 in vitro. Injection of IL-10-MSCs decreased the severity of arthritis significantly. However, there was no difference in arthritis severity between mice treated with MSC and vehicle alone. Anti-CII antibody titres in the sera and T cell proliferative response to CII in lymph node cells were decreased significantly in mice treated with IL-10-MSCs compared with vehicle-treated mice. Serum IL-6 level was also decreased by the administration of IL-10-MSCs. In contrast, spleen cells of IL-10-MSC-treated mice produced higher amounts of IL-4 than those of control mice. Interestingly, although not as potent as IL-10-MSCs, injection of naive MSCs alone decreased serum levels of IL-6 and anti-CII antibody, while increasing IL-4 production from cultured splenic cells. Taken together, systemic administration of genetically modified MSCs overexpressing IL-10 inhibits experimental arthritis not only by suppressing autoimmune response to CII but also by regulating cytokine production, and thus would be a new strategy for treating rheumatoid arthritis.