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OC2 SURVIVAL OF XENOGENEIC BONE MARROW-DERIVED MESENCHYMAL STEM CELLS IN A XENO-TRANSPLANTATION MODEL



Abstract

Mesenchymal stem cells (MSCs) are immunosuppressive and have been used to facilitate tissue repair in the context of allogeneic implantation. However, xenogeneic cell transplantation has not been fully explored. The present study investigated the feasibility of xenogeneic MSCs implantation in mice.

MSCs were harvested from the bone marrow of GFP rats (Green Fluorescent Protein transgenic rats), and cultured as previously described. 1 million GFP MSCs were loaded onto the synthetic HA/TCP porous Skelite blocks and implanted intramuscularly into the quadriceps of the MF1 and SCID mice. After 11 weeks, the implants were harvested and processed for histology examination. Upon termination, the mononuclear cells from the peripheral blood of each animal were also collected for mixed lymphocyte culture to examine lymphocyte proliferation potential and T-cell mediated cell lysis (cytotoxic) assays.

In the SCID mice, there was sparse osteoid tissue formation in the implants, whereas only dense connective tissues were seen in the implants of the MF1 mice. Osteocalcin mRNA expression was confirmed in the osteoid tissues in the implants from the SCID mice, but it was not detected in the MF1 mice by RT in situ PCR examination. Cells of GFP-rat origin were observed in both the MF1 and SCID mice (more so in the SCID mice) after 11 weeks implantation, which were confirmed by positive immunostaining of anti-GFP antibody. In the MF1 mice after 11 weeks xenogeneic MSCs implantation, the rate of lymphocyte proliferation was significantly increased when mixed with the GFP-MSCs compared to that of mixed lymphocyte culture assays in the SCID or MF1 mice without xenogeneic MSCs implantation, suggesting that implantation of xenoge-neic MSCs has promoted host anti-graft immunogenic responses towards to otherwise immunosuppressive MSCs.

In conclusion, xenogeneic rat MSCs transplanted in immunocompetent mice has survived for prolonged period, but their function was comprised to certain extent and this may be due to the increased host anti-graft immune sensitization after exposed to the xenogeneic MSCs.

Correspondence should be addressed to Mr Carlos Wigderowitz, Senior Lecturer, University Department of Orthopaedic and Trauma Surgery, Ninewells Hospital and Medical School, Dundee DD1 9SY.