Immune Modulation Permits Tolerance and Engraftment in a Murine Model of Late-Gestation Transplantation.

In utero hematopoietic cell transplantation (IUHCT) is an experimental non-myeloablative therapy with potential application to hematologic disorders including Sickle cell disease. Its clinical utility has been limited due to the early acquisition of T cell immunity beginning at approximately 14 weeks gestation, posing significant technical challenges and excluding from treatment fetuses evaluated after the first trimester. Using murine neonatal transplantation at 20 days post-coitum (DPC) as a model for late-gestation transplantation (LGT) in humans, we investigated whether immune modulation with anti-CD3 monoclonal antibody (mAb) could achieve donor-specific tolerance and sustained allogeneic engraftment comparable to the early-gestation fetal recipient at 14 DPC. In allogeneic wild-type strain combinations, administration of anti-CD3 mAb with transplantation resulted in transient T cell depletion followed by central tolerance induction confirmed by donor-specific clonal deletion and skin graft tolerance. Normal immune responses to third-party major histocompatibility complex and viral pathogens were preserved, and graft-versus-host disease did not occur. We further demonstrate successful application of this approach to the Townes mouse model of Sickle cell disease. These findings confirm the developing fetal T cell response as a barrier to LGT and support transient T cell depletion as a safe and effective immunomodulatory strategy by which to overcome it.