We recently reported long-term organ allograft survival without ongoing immunosuppression in 4 of 5 patients receiving combined kidney and bone marrow transplantation from haploidentical donors following non-myeloablative conditioning. In vitro assays up to 18 months revealed donor-specific unresponsiveness. We now demonstrate that T cell recovery is gradual and is characterized by memory-type cell predominance and an increased proportion of CD4+CD25+CD127−FOXP3+ Treg during the lymphopenic period. Complete donor-specific unresponsiveness in proliferative and cytotoxic assays, and in limiting dilution analyses of IL-2-producing and cytotoxic cells, developed and persisted for the 3-year follow-up in all patients, and extended to donor renal tubular epithelial cells. Assays in 2 of 4 patients were consistent with a role for a suppressive tolerance mechanism at 6 months to 1 year, but later (≥18 months) studies on all 4 patients provided no evidence for a suppressive mechanism. Our studies demonstrate, for the first time, long-term, systemic donor-specific unresponsiveness in patients with HLA-mismatched allograft tolerance. While regulatory cells may play an early role, long-term tolerance appears to be maintained by a deletion or anergy mechanism.
Background We have previously reported operational tolerance in patients receiving HLA-mismatched combined kidney and bone marrow transplantation (CKBMT). We now report on transient multilineage hematopoietic chimerism and lymphocyte recovery in five patients receiving a modified CKBMT protocol, and evidence for early donor-specific unresponsiveness in one of these patients. Methods Five patients with end-stage renal disease received CKBMT from HLA-mismatched, haploidentical living related donors following modified non-myeloablative conditioning. Polychromatic flow cytometry (FCM) was used to assess multilineage chimerism where evaluable and lymphocyte recovery post-transplant. Limiting dilution analysis was used to assess helper-T-lymphocyte reactivity to donor antigens. Results Transient multilineage mixed chimerism was observed in all patients but chimerism became undetectable by 2 weeks post-CKBMT. A marked decrease in T and B lymphocyte counts immediately following transplant was followed by gradual recovery. Initially recovering T cells were depleted of CD45RA+/CD45RO− “naïve-like” cells, which have shown strong recovery in two patients and CD4/CD8 ratios increased immediately following transplant but then declined markedly. NK cells were enriched in the peripheral blood of all patients following transplant. For Subject 2, a pre-transplant limiting dilution assay revealed T helper cells recognizing both donor and third-party PBMCs. However, the anti-donor response was completely undetectable by Day 24, while third-party reactivity persisted. Conclusion These results characterize the transient multilineage mixed hematopoietic chimerism and recovery of lymphocyte subsets in patients receiving a modified CKBMT protocol. The observations are relevant to the mechanisms of donor-specific tolerance in this patient group.
Immune recovery in lymphopenic hosts depends largely on homeostatic peripheral expansion, especially when thymopoiesis is insufficient, as is often the case in human adults. While it has been well studied in mice, the study of homeostatic peripheral expansion of human T cells has been limited by the lack of an appropriate in vivo model. Here, we use T cell-deficient humanized mice and an adoptive transfer approach to demonstrate that two distinct proliferative responses of autologous T cells occur in vivo in a lymphopenic setting. Human naïve CD4 and CD8 T cells that undergo rapid proliferation acquire a memory-like phenotype and the ability to rapidly produce IFN-γ, while those undergoing slow proliferation retain naïve phenotypic and functional characteristics. Recovery of both populations depends on the extent of human non-T cell chimerism in the periphery of recipient humanized mice. Furthermore, memory conversion of CD4 and CD8 T cells correlates with the level of human CD14+ and CD19+ chimerism in recipient mice, respectively, suggesting that different types of APCs support memory conversion of CD4 and CD8 T cells. Since lymphopenia affects clinical outcomes, this model should allow detailed investigation of the effects of lymphopenia in patients.
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