Abstract

Previous studies have shown that Schwann cell implantation offers a potential therapeutic approach to a variety of neurodegenerative disorders and traumatic injuries. In a clinically relevant paradigm, however, the implantation of autologous Schwann cells is problematic and the use of heterogenetic Schwann cells will be required. In the present study we addressed this important issue and analysed the immunogenicity and survival of allogeneic and xenogeneic Schwann cell suspension grafts in a prelesioned CNS fiber tract, the transected postcommissural fornix of the adult Wistar rat. Cultured Schwann cells from Wistar rat or human peripheral nerve were injected either immediately or after a delay into the transection site and the spatio-temporal pattern of leukocyte infiltration and of major histocompatibility antigen expression was characterized and semiquantified with immunocytochemical methods. Our main findings are that (1) invasive cerebral lesions induce the expression of MHC class I and II antigens, but only sparse infiltration of T-lymphocytes, (2) both allogeneic and xenogeneic discordant Schwann cell suspension grafts, from either neonatal or adult peripheral nerve, survive without any overt signs of rejection for up to 10 weeks after implantation; and (3) delayed implantation procedures have no effect on immune responses to allogeneic Schwann cell grafts. These results demonstrate that there is no marked ongoing immune reactions to heterogenetic Schwann cell suspension grafts and that long-term survival of cross-species Schwann cell grafts can be achieved in the absence of any immunsuppressive treatment. Thus the conditions for functional transplantation of Schwann cells across immunological barriers seem to be favourable and will have implications for future cross-species studies, and possibly also for clinical application.

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