Adoptive transfer of effector CD8+ T cells derived from central memory cells establishes persistent T cell memory in primates
Carolina Berger, … , Carole Elliott, Stanley R. Riddell
Carolina Berger, … , Carole Elliott, Stanley R. Riddell
Published December 3, 2007
Citation Information: J Clin Invest. 2008;118(1):294-305. https://doi.org/10.1172/JCI32103.
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Adoptive transfer of effector CD8+ T cells derived from central memory cells establishes persistent T cell memory in primates

Abstract

The adoptive transfer of antigen-specific T cells that have been expanded ex vivo is being actively pursued to treat infections and malignancy in humans. The T cell populations that are available for adoptive immunotherapy include both effector memory and central memory cells, and these differ in phenotype, function, and homing. The efficacy of adoptive immunotherapy requires that transferred T cells persist in vivo, but identifying T cells that can reproducibly survive in vivo after they have been numerically expanded by in vitro culture has proven difficult. Here we show that in macaques, antigen-specific CD8+ T cell clones derived from central memory T cells, but not effector memory T cells, persisted long-term in vivo, reacquired phenotypic and functional properties of memory T cells, and occupied memory T cell niches. These results demonstrate that clonally derived CD8+ T cells isolated from central memory T cells are distinct from those derived from effector memory T cells and retain an intrinsic capacity that enables them to survive after adoptive transfer and revert to the memory cell pool. These results could have significant implications for the selection of T cells to expand or to engineer for adoptive immunotherapy of human infections or malignancy.

Authors

Carolina Berger, Michael C. Jensen, Peter M. Lansdorp, Mike Gough, Carole Elliott, Stanley R. Riddell

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Figure 5

Persistence and migration of a TEM-derived CD8+ TE clone in PBMCs and tissue sites following adoptive transfer.

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Persistence and migration of a TEM-derived CD8+ TE clone in PBMCs and ti...
(A) Persistence and migration of a ΔLNGFR-modified TEM-derived T cell clone in PBMCs. The ΔLNGFR+ T cell clone was transferred at a cell dose of 6 × 108/kg. Aliquots of blood were collected at the indicated times and analyzed by PCR for the frequency of transferred ΔLNGFR+ T cells. Shown are the absolute numbers of vector-positive T cells/106 PBMCs (gray bars) before and at intervals after infusion. (B) A necropsy was performed on day 10 after the T cell infusion. Samples of DNA were isolated from various tissues as indicated and examined for the presence of the transferred vector-positive cells (black bars) using a real-time PCR assay. DNA isolated from ΔLNGFR+ T cells was serially diluted 1:10 in water prior to amplification with the appropriate primer set. The real-time PCR assay to detect β-actin (gray bars) was used as a control to detect genomic DNA. The threshold cycle is shown for each sample.