Interleukin-13 Gene Modification Enhances Grafted Mesenchymal Stem Cells Survival After Subretinal Transplantation.

Abstract

Mesenchymal stem cells (MSCs) hold great potential for cell- and gene-based therapies for retinal degeneration. Limited survival is the main obstacle in achieving successful subretinal transplantation of MSCs. The present study sought to evaluate the effect of interleukin-13 (IL-13) gene modification on the phenotypic alteration of retinal microglia (RMG) and the survival of MSCs following subretinal grafting. In this study, LPS-activated RMG were cocultured with MSCs or IL-13-expressing MSCs (IL-13-MSCs) for 24h, and activated phenotypes were detected in vitro. Western blotting was performed to quantify cytokine secretion by light-injured retinas following subretinal transplantation. The numbers of activated RMG and surviving grafted cells were analysed, and the integrity of the blood-retinal barrier (BRB) was examined in vivo. We found that, compared with normal MSCs, cocultured IL-13-MSCs suppressed the expression of pro-inflammatory factors and major histocompatibility complex II, promoted the expression of anti-inflammatory cytokines by activated RMG and simultaneously inhibited the proliferation of and phagocytosis by RMG. The subretinal transplantation of IL-13-MSCs increased the expression of neurotrophic factors, IL-13 and tight junction proteins in the host retina, decreased the number of phagocytic RMG and improved the survival of grafted cells. Furthermore, IL-13-MSCs alleviated BRB breakdown induced by subretinal injection. Our results demonstrate that IL-13-MSCs can polarize activated RMG to the neuroprotective M2 phenotype and enhance the survival of grafted MSCs against the damage stress induced by subretinal transplantation.