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  • Title: Separate regulation of peripheral hematopoietic and thymic engraftment.
    Author: Sykes M, Szot GL, Swenson K, Pearson DA, Wekerle T.
    Journal: Exp Hematol; 1998 Jun; 26(6):457-65. PubMed ID: 9620278.
    Abstract:
    Long-term multilineage chimerism, indicating pluripotent hematopoietic stem cell engraftment, was achieved in an Ly5-congenic strain combination without irradiation or other host conditioning when a large number of donor marrow cells (1.4-2x10(8)) was administered. However, the initial (2-4 weeks posttransplantation) percentages of T and B lymphocytes of donor origin were markedly lower than those of myeloid lineages. Steady-state levels of donor and host repopulation of all lineages were reached by 7 to 15 weeks posttransplantation and remained relatively constant for at least 41 weeks. B cell chimerism was similar to that seen in myeloid lineages at steady state. In contrast, long-term donor representation in the T cell lineage was much lower than in the B cell or myeloid lineages. Host treatment with depleting anti-T cell monoclonal antibodies increased the donor contribution to early T cell repopulation, but long-term T cell chimerism was still significantly lower in all lymphohematopoietic tissues, including the thymus, than B cell or myeloid cell chimerism. Pretreatment of hosts with 3.5 Gy of local irradiation to the thymic region further increased the donor contribution to initial T cell repopulation, which equaled that of other lineages at 4 to 7 weeks. However, donor representation in the T cell lineage declined by the time steady-state chimerism was attained and was lower than donor representation in the B cell or myeloid lineages. A higher dose of thymic irradiation (7 Gy) led to a reduction in this discrepancy, so that levels of donor thymopoiesis and hematopoiesis in other lineages were similar by 23 to 27 weeks posttransplantation. The differential contribution of adult donor marrow to long-term, steady-state thymopoiesis vs. hematopoiesis in other lineages under certain conditions in this competitive repopulation assay suggests that functionally distinguishable progenitors are responsible for these activities.
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