Abstract
Foetal pig neuroblasts are interesting candidates as a cell source for transplantation, but xenotransplantation in the brain requires the development of adapted immunosuppressive treatments. As systemic administration of high doses of cyclosporine A has side effects and does not protect xenotransplants forever, we focused our work on local control of the host immune responses. We studied the advantage of cotransplanting syngenic mesenchymal stem cells (MSC) with porcine neuroblasts (pNb) in immunocompetent rat striata. Two groups of animals were transplanted, either with pNb alone or with both MSC and pNb. At day 63, no porcine neurons were detected in the striata that received only pNb, while four of six rats transplanted with both pNb and MSC exhibited healthy porcine neurons. Interestingly, 50% of the cotransplanted rats displayed healthy grafts with pNF70+ and TH+ neurons at 120 days post-transplantation. qPCR analyses revealed a general dwindling of pro- and anti-inflammatory cytokines in the striata that received the cotransplants. Motor recovery was also observed following the transplantation of pNb and MSC in a rat model of Parkinson's disease. Taken together, the present data indicate that the immunosuppressive properties of MSC are of great interest for the long-term survival of xenogeneic neurons in the brain.
Highlights
Transplantation is a promising approach for nervous system repair in neurodegenerative disorders
The presence of porcine neurons in the rat striatum was controlled for using an antibody that recognizes the porcine neurofilament 70 kD subunit (NF70+)
At early stages, such as D28, porcine neuroblasts (pNb) grafts were usually homogeneous with numerous NF70+ cells and no T cells (NF70+/R73À, healthy graft)
Summary
Transplantation is a promising approach for nervous system repair in neurodegenerative disorders. Mesenchymal stem cells (MSC) showed spontaneous long-term survival following their transplantation into the brain of a xenogeneic host [11, 12]. This long-term survival is due to the low immunogenicity of MSC and to their active immunosuppressive activity. Transplantation of MSC in animal models of stroke or multiple sclerosis revealed that these cells may have beneficial effects through their immune and trophic properties [15]. Our results showed that MSC protect xenogeneic neural cells from cell rejection without affecting their functional properties
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