Donor lymphocyte infusions have become increasingly valuable for the treatment of hematologic diseases. In the past it has been reported that ex vivo activated and expanded human (hu) T lymphocytes, compared to fresh, non activated donor lymphocytes, have a markedly reduced ability to elicit normal immune functions in vivo. To overcome this problem, an improved method of ex vivo T cell activation and expansion and a model for in vivo testing of the function of cultured T cells is needed. We developed a more physiological, closed system GMP T cell stimulation protocol using clinical grade magnetic beads coated with CD3 and CD28 antibodies (Xcyte Therapies Inc., Seattle, WA), IL-2 at a low concentration added 24 hours after the initial culture setup and the new GMP grade serumfree Stemline T cell medium (Sigma, St. Louis, MO). This medium allowed the elimination of donor variability, which we experienced in T cell expansions with other serumfree media. Using our NOD SCID/β2m null mouse model of T cell expansion, we demonstrated that high concentrations of IL-2 (500 U/ml, as previously used in clinical T cell expansions) impair the in vivo functionality of expanded T cells. We therefore lowered the IL-2 concentration to 50 U/ml during culture. A 3 fold cell expansion after 4 days, and a 10 fold cell expansion after 8 days of culture could be observed. The CD4 and CD8 ratios were 1.6 ± 0.5 at the start, 1.7 ± 0.4 four days post activation and 1.1 ± 0.2 eight days post-activation, with viability greater than 95%. We conditioned NOD SCID/β2m null mice with 300 cGy of TBI and injected them retroorbitally with 1 x 107 non activated (n=8), 4 day activated (n=9), or 8 day activated hu T cells (n=5). Mice that received 4 or 8 day activated huT cells exhibited weight loss, high hu T cell engraftment, and high hu IFNγ serum levels. All these animals exhibited lethal GvHD with median survivals of 15 and 12 days, respectively. Activated cells outperformed non activated hu T cells in their GvHD potential since not all mice injected with non activated cells developed lethal GvHD. Interestingly, mice which received 4 day activated cells exhibited significantly increased percentages of hu T cells in the blood, spleen, liver and lung, as compared to animals that received non activated hu T cells. With non activated hu T cells, preferential expansion of hu CD4+ cells was seen in mouse organs; with activated hu T cells the CD4/CD8 input ratio was preserved. Although 8 day activated hu T cells also elicited lethal GvHD in all animals, we did not observe the same pattern of engraftment and organ infiltration as with 4 day activated cells. 4 day activated hu T cells produced significantly higher engraftment, hu IFNγ production, and destruction of mouse tissue compared to 8 day activated hu T cells. For the first time, these results demonstrate consistent lethal GvHD elicited in a mouse xenotransplant model by 107ex vivo activated, expanded hu T cells produced in a closed system, serumfree GMP manufacturing process outperforming non activated hu T cells.

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