Kinetics of early T-cell repopulation in fully xenogeneic chimeras (F344 rat----B10 mouse): evidence for rat T-cell maturation in a xenogeneic mouse thymus.

We recently reported the model of fully xenogeneic chimerism achieved by transplantation of rat bone marrow into mouse recipients (F344 rat----B10 mouse), resulting in stable long-term rat lymphoid chimerism. We have now extended this model to examine whether developing precursor rat T cells from rat bone marrow stem cells can undergo normal differentiation in mature lymphocytes under the influence of a xenogeneic mouse thymus. We examined thymic and splenic lymphoid cells from fully xenogeneic chimeras starting 1 week after bone marrow transplantation to characterize early T-cell repopulation and phenotype. Our data suggest that developing rat precursor T cells are able to undergo normal differentiation in the mouse thymus. The first precursor T cells appeared 2 weeks after reconstitution and by week 10 accounted for more than 90% of thymocytes present in the chimeras. In chimeras, developing rat T lymphocytes in the mouse thymus exhibited an immature pattern (Thy 1.1+, alpha beta-TCRdull, CD4+ plus CD8+) when analyzed by flow cytometry. This pattern was similar to a normal rat. In contrast, splenic T-lymphoid cells showed a mature rat phenotype (Thy 1.1-, alpha beta-TCRhi, CD4+ or CD8+), again similar to a normal rat. This development began 2 weeks after bone marrow transplantation, and both thymus and spleen from chimeras exhibited "normal" rat T-cell staining profiles by 10 weeks after reconstitution. Overall, these data indicate that developing rat T cells are capable of undergoing normal maturation in a xenogeneic mouse thymus of tolerant animals.