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J Immunother. 2007 May-Jun;30(4):438-47.

Inability to mediate prolonged reduction of regulatory T Cells after transfer of autologous CD25-depleted PBMC and interleukin-2 after lymphodepleting chemotherapy.

Author information

1
Surgery Branch, National Cancer Institute, National Institutes of Health, Bethesda, MD 20892-1201, USA. Daniel_Powell@nih.gov

Abstract

CD25CD4 regulatory T cells (Treg) regulate peripheral self-tolerance and possess the ability to suppress antitumor responses, which may explain the poor clinical response of cancer patients undergoing active immunization protocols, and provides the rationale for neutralizing Treg cells in vivo to strengthen local antitumor immune responses. Because interleukin-2 (IL-2) mediates tumor regression in about 15% of treated patients but simultaneously increases Treg cells, we hypothesized that transient elimination of Treg cells will enhance the clinical effectiveness of IL-2 therapy. In the current study, 5 patients with metastatic melanoma who were refractory to prior IL-2 received a lymphodepleting preparative regimen followed by the adoptive transfer of autologous lymphocytes depleted of CD25 Treg cells and high-dose IL-2 administration. CD25 cells were eliminated from patient leukapheresis samples using a clinical-grade, large-scale immunomagnetic system, leaving CD8 and CD25CD4 T cells intact. In the early aftermath of CD25 Treg cell-depleted cell infusion, CD25FOXP3+ CD4 Treg cells rapidly repopulated the peripheral blood of treated patients with 18% to 63% of CD4 T cells expressing FOXP3. Recovering CD25CD4 T cells exhibited suppressive activity against CD25CD4 effector T-cell proliferation in vitro. No patient experienced objective tumor regression or autoimmunity. Our results indicate that in vivo transfer of autologous CD25-depleted mononuclear populations to lymphopenic patients in combination with high-dose IL-2 is not sufficient to mediate prolonged reduction of Treg cells after IL-2 administration.

PMID:
17457218
PMCID:
PMC2140222
DOI:
10.1097/CJI.0b013e3180600ff9
[Indexed for MEDLINE]
Free PMC Article

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