Figure 2.
Figure 2. Eph expression in different subsets of CD34+-derived DCs generated in vitro and of skin Langerhans cells isolated ex vivo. Cord blood CD34+ progenitors were cultured in the presence of GM-CSF, SCF, TNF-α, and 2.5% AB+ human serum. At day 6, CD1a+ and CD14+ precursors were sorted by flow cytometry and recultured with GM-CSF and TNF-α for 6 additional days. The presence of Eph transcripts in the 2 purified subsets was compared to total CD34+-derived DCs (DC TOT, corresponding to unsorted cells). cDNA was prepared from basal cells and from Langerhans cells, freshly isolated from normal skin. RT-PCR was carried out under standard conditions using 50 ng cDNA for 40 cycles. All cDNA samples were normalized according to the results of β-actin PCR amplification of 21, 28, and 35 cycles (only the amplification of 28 cycles is shown). Results are representative of 3 independent RT-PCR samples.

Eph expression in different subsets of CD34+-derived DCs generated in vitro and of skin Langerhans cells isolated ex vivo. Cord blood CD34+ progenitors were cultured in the presence of GM-CSF, SCF, TNF-α, and 2.5% AB+ human serum. At day 6, CD1a+ and CD14+ precursors were sorted by flow cytometry and recultured with GM-CSF and TNF-α for 6 additional days. The presence of Eph transcripts in the 2 purified subsets was compared to total CD34+-derived DCs (DC TOT, corresponding to unsorted cells). cDNA was prepared from basal cells and from Langerhans cells, freshly isolated from normal skin. RT-PCR was carried out under standard conditions using 50 ng cDNA for 40 cycles. All cDNA samples were normalized according to the results of β-actin PCR amplification of 21, 28, and 35 cycles (only the amplification of 28 cycles is shown). Results are representative of 3 independent RT-PCR samples.

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