Depletion of T regulatory cells through selection of CD127-positive cells results in a population enriched in memory T cells: implications for anti-tumor cell therapy.

BACKGROUND: Donor lymphocyte infusions can induce remissions in patients with relapse after allogeneic hematopoietic stem cell transplantation. Nevertheless, some grafted patients never display any signs of alloreactivity, either following allogeneic hematopoietic stem cell transplantation or after donor lymphocyte infusions. Consequently, they do not develop graft-versus-host disease and frequently do not respond to donor lymphocyte infusions. In a recently published clinical trial, we observed that elimination of CD4(+)CD25(+)Foxp3(+) natural regulatory T cells from the donor lymphocyte product could improve alloreactivity and the associated anti-tumor effect in a small proportion of patients with relapsed hematologic malignancies. Here, we aimed to improve the effect of donor lymphocyte infusion by modifying the procedure for depletion of T regulatory cells. DESIGN AND METHODS: We directly compared depletion of regulatory T cells from human peripheral blood mononuclear cells achieved by selection of CD127-positive cells or by selection of CD25-negative cells. We tested the manipulated products (i) in vitro in mixed lymphocyte reactions and against pathogen-derived recall antigens and (ii) in vivo in experimental graft-versus-host disease. RESULTS: In vitro, we found that depletion of regulatory T cells through CD127 positive selection improved both alloreactive and pathogen-specific immune responses. In vivo, we observed accelerated donor T-cell division and enhanced graft-versus-host disease due to efficient regulatory T-cell depletion accompanied by enrichment in memory T cells. CONCLUSIONS: Our results show that the strategy of CD127 positive selection is an efficient way of eliminating regulatory T cells from donor lymphocyte infusions and improves alloreactivity. This supports the investigation of CD127 positive selection in place of elimination of CD25-positive cells for clinical applications.

Generation of Human Alloantigen-Specific Regulatory T Cells Under Good Manufacturing Practice-Compliant Conditions for Cell Therapy.

Natural regulatory T cells (Tregs) may have a great therapeutic potential to induce tolerance in allogeneic cells and organ transplantations. In mice, we showed that alloantigen-specific Tregs (spe-Tregs) were more efficient than polyclonal Tregs (poly-Tregs) in controlling graft-versus-host disease (GVHD). Here we describe a clinical-grade compliant method for generating human spe-Tregs. Tregs were enriched from leukapheresis products with anti-CD25 immunomagnetic beads, primed twice by allogeneic mature monocyte-derived dendritic cells (mDCs), and cultured during 3 weeks in medium containing interleukin 2 (IL-2), IL-15, and rapamycin. After 3 weeks of culture, final cell products were expanded 8.3-fold from the initial CD25(+) purifications. Immunophenotypic analyses of final cells indicate that they were composed of 88 ± 2.6% of CD4(+) T cells, all expressing Treg-specific markers (FOXP3, Helios, GARP, LAP, and CD152). Spe-Tregs were highly suppressive in vitro and also in vivo using a xeno-GVHD model established in immunodeficient mice. The specificity of their suppressive activity was demonstrated on their ability to significantly suppress the proliferation of autologous effector T cells stimulated by the same mDCs compared to third-party mDCs. Our data provide evidence that functional alloantigen Tregs can be generated under clinical-grade compliant conditions. Taking into account that 130 × 10(6) CD25(+) cells can be obtained at large scale from standard leukapheresis, our cell process may give rise to a theoretical final number of 1 × 10(9) spe-Tregs. Thus, using our strategy, we can propose to prepare spe-Tregs for clinical trials designed to control HLA-mismatched GVHD or organ transplantation rejection.