BM-MSCs-derived microvesicles promote allogeneic kidney graft survival through enhancing micro-146a expression of dendritic cells

Abstract

ObjectiveMicrovesicles (MVs) are plasmalemmal vesicles that are released from various cells and regarded as a mediator of intermolecular communication. In present study, we aimed to evaluate the therapeutic efficacy of the bone marrow mesenchymal stem cells (BM-MSCs)-derived MVs in the mice kidney transplant model and explored the underlying mechanism. MethodsBM-MSCs were isolated from C57BL/6 mice and identified using flow cytometry. In vivo allogenic kidney transplantation model of mice was performed between C57BL/6 mice (recipient) and BALB/c mice (donor). Recipient-type BM-MSC (0.1ml) or equal volume of medium as a control was injected i.v. 24h after kidney transplantation. Serum was collected for creatinine concentration detection at 14 d after transplantation. Dendritic cells (DCs) phenotype and miR-146a expression level in plant was identified. Immature DCs (iDCs) and mature DCs (mDCs) were derived from monocytes. MVs were separated from BM-MSCs. ResultsBM-MSCs positive for CD29 (95.8%) and CD44 (94.7%) were cultured and confirmed to prolong the allogenic kidney graft survival in mice. Importantly, the expression of miR-146a increased significantly in DCs of BM-MSCs-treated allogenic kidney. Moreover, both BM-MSCs and MVs derived from BM-MSCs enhanced miR-146a expression in iDCs and mDCs in vitro. Furthermore, MVs substantially reduced IL-12 mRNA expression and IL-12 production of mDCs whereas this action was reversed by miR-146a silencing. MiR-146a silencing also abrogated the MVs-induced decrease in serum creatinine, reduction of immature DCs phenotype in transplant and increase in miR-146a expression level. ConclusionIn summary, our data suggested that the BM-MSCs-derived MVs improved allogenic kidney transplantation survival through inhibiting DCs maturity by miR-146a.