Benefits of conditioned medium of nicotine-pulsed mesenchymal stem cells in experimental autoimmune hepatitis.

Abstract

Previous data indicated that nicotine could modulate the immune regulatory potential of mesenchymal stem cells (MSCs). Currently, we intend to assess the effects of a conditioned medium of nicotine-pulsed mesenchymal stem cells in the experimental model of autoimmune hepatitis (AIH). Bone marrow-derived MSCs pulsed with 0,.1,.5, or 1 μM nicotine until the cells reached 90% confluency. Correspondent to in vitro results, the least effective concentration of nicotine that led to an anti-inflammatory environment by the MSC-conditioned medium was 0.5 μM. The murine model of AIH induced by Intravenous injection Concanavalin A (ConA). Mice were allocated to pretreatment (Concomitant treatment with ConA administration) or treatment groups and received un-pulsed MSC-conditioned medium (CM) or conditioned medium of nicotine (0.5 µM)-pulsed MSCs (CMN). The levels of ALT, AST, MPO, TNF-α, IFN-γ, and IL-6 were the highest in the ConA group than in the other groups. Pretreatment or treatment with the CMN caused a significant reduction in hepatic enzymes and inflammatory cytokines compared to pretreatment or treatment with CM. Both CM or CMN significantly decreased the numbers of activated TCD4and TCD8in the blood. More importantly, pre-treatment or treatment with CMN caused a better improvement in the histopathological appearance than pre-treatment or treatment with CM. The results of this study show that CMN rapidly controls the AIH mouse model, and therefore it may be considered as a new therapeutic approach for the treatment of AIH patients.