Figure 7.
Figure 7. Function of iCasp9M in vivo. NOD/SCID mice were irradiated and injected subcutaneously with 10 × 106 to 15 × 106 LCLs. After 14 days, mice bearing tumors of 0.5 cm in diameter received a total of 15 × 106 EBV-CTLs (50% of these cells were nontransduced and 50% were transduced with iCasp9M.I.GFP and sorted for high GFP expression). On day 3 after CTL administration, mice received either CID (50 μg AP20187; ▴, n=6) or carrier only (▪, n=5) and on day 6 the presence of human CD3+/GFP+ T cells in the tumors was analyzed. Human CD3+ T cells isolated from the tumors of a control group of mice that received only nontransduced CTLs (15 × 106 CTLs; n= 4) were used as a negative control for the analysis of CD3+/GFP+ T cells within the tumors.

Function of iCasp9M in vivo. NOD/SCID mice were irradiated and injected subcutaneously with 10 × 106 to 15 × 106 LCLs. After 14 days, mice bearing tumors of 0.5 cm in diameter received a total of 15 × 106 EBV-CTLs (50% of these cells were nontransduced and 50% were transduced with iCasp9M.I.GFP and sorted for high GFP expression). On day 3 after CTL administration, mice received either CID (50 μg AP20187; ▴, n=6) or carrier only (▪, n=5) and on day 6 the presence of human CD3+/GFP+ T cells in the tumors was analyzed. Human CD3+ T cells isolated from the tumors of a control group of mice that received only nontransduced CTLs (15 × 106 CTLs; n= 4) were used as a negative control for the analysis of CD3+/GFP+ T cells within the tumors.

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