Trophic and immunoregulatory properties of neural precursor cells: benefit for intracerebral transplantation.

Intracerebral xenotransplantation of porcine fetal neuroblasts (pNB) is considered as an alternative to human neuroblasts for the treatment of neurodegenerative diseases. However, pNB are systematically rejected, even in an immunoprivileged site such as the brain. Within this context, neural stem/precursor cells (NSPC), which were suggested as exhibiting low immunogenicity, appeared as a useful source of xenogeneic cells.

Minocycline promotes long-term survival of neuronal transplant in the brain by inhibiting late microglial activation and T-cell recruitment.

Background: Cell therapy in the brain is limited by the requirement of high doses of immunosuppressors that have harmful side effects, and often, it cannot prevent the ultimate rejection of the transplanted cells. Alternative treatments that replace or enable a reduction in the doses of usual immunosuppressors have to be found. In this regard, minocycline shows potential as therapeutic agent.

Transgenic expression of CTLA4-Ig by fetal pig neurons for xenotransplantation.

The transplantation of fetal porcine neurons is a potential therapeutic strategy for the treatment of human neurodegenerative disorders. A major obstacle to xenotransplantation, however, is the immune-mediated rejection that is resistant to conventional immunosuppression. To determine whether genetically modified donor pig neurons could be used to deliver immunosuppressive proteins locally in the brain, transgenic pigs were developed that express the human T cell inhibitory molecule hCTLA4-Ig under the control of the neuron-specific enolase promoter.

Characterization of human CD55 and CD59 transgenic pigs and kidney xenotransplantation in the pig-to-baboon combination.

New transgenic pigs expressing combinations of regulators of complement activation and other molecules are needed to resist xenograft hyperacute rejection (HAR) and to further analyze and treat xenograft rejection. Double transgenic pigs for human CD55 (hCD55) and human CD59 (hCD59) using the promoter of the human elongation factor 1 alpha gene were generated, and their kidneys were transplanted into nonimmunosuppressed baboons. hCD55 and hCD59 were mainly expressed by the endothelial cells, and these cells showed increased resistance to complement-mediated lysis.

The study of mitoxantrone as a potential immunosuppressor in transgenic pig renal xenotransplantation in baboons: comparison with cyclophosphamide.

Mounting evidence suggests that delayed xenograft rejection (DXR) of discordant xenografts has a strong humoral component. To explore the possibility of targeting this humoral response more efficiently, we performed a preliminary study in baboons immunized against pig blood cells using the immunosuppressor mitoxantrone (Mx). The results from this study showed that, in comparison with cyclophosphamide (CyP), Mx induced a long-lasting depletion of circulating B cells within 6 days of its administration and delayed secondary anti-Gal antibody (Ab) responses to pig blood cell immunizations.