Figure 3
Figure 3. BM single Lin−CD122+NK1.1−DX5− NKPs have combined NK- and T-cell potential. Single BM Lin−CD122+NK1.1−DX5− NKPs were directly sorted into OP9DL1 stroma layers and cultured with KL, IL-7 (first week), FL, IL-2, and IL-15. After 14 and 21 days, clones were harvested and analyzed by FACS. ToPro was used to eliminate dead cells. (A-B) FACS profiles of representative clones generated from a single Lin−CD122+NK1.1−DX5− NKP. Text above profiles indicates prior gating. (C) Mean (SD) proportion of total proliferating clones and clones containing NK (TCR-β−NK1.1+DX5+) and T (NK1.1−CD25+Thy1.2+ or NK1.1−CD25+ Thy1.2+ TCR-β+) cells generated from single NKPs. Data expressed in relation to plated single cells, from 3 independent experiments, with total 167 plated cells and 105 clones analyzed. (D) Mean (SD) proportion of total clones and clones containing NK (TCR-β−NK1.1+ DX5+), T (TCR-β+NK1.1−CD4+/CD8+, NK1.1− CD25+Thy1.2+, or NK1.1−CD25+Thy1.2+ TCR-β+), and TCR+NK1.1+ T cells, or combinations of these, generated from single NKPs. Data are expressed in relation to number of plated single cells, from 6 independent experiments, with a total 382 single cells plated and 201 clones analyzed. (E) Clones generated from single NKPs (shown in panels A and C), shown to have combined NK- and T-cell potential by FACS, were analyzed by RT-PCR for Cd3e, Ptcra, and Hprt gene expression. Thymocytes were used as positive control and OP9DL1 stroma cells cultured without hematopoietic cells as a negative control. Ethidium bromide–stained agarose gels with resulting PCR products from RT-PCR analysis of Cd3e, Ptcra, and Hprt. The photo has been taken using Gel logic 100 (Kodak). Data from 1 of 2 experiments with similar results. Note that clone 2 is the same clone derived from a single Lin−CD122+NK1.1−DX5− NKP and analyzed by FACS in panel A.

BM single LinCD122+NK1.1DX5 NKPs have combined NK- and T-cell potential. Single BM LinCD122+NK1.1DX5 NKPs were directly sorted into OP9DL1 stroma layers and cultured with KL, IL-7 (first week), FL, IL-2, and IL-15. After 14 and 21 days, clones were harvested and analyzed by FACS. ToPro was used to eliminate dead cells. (A-B) FACS profiles of representative clones generated from a single LinCD122+NK1.1DX5 NKP. Text above profiles indicates prior gating. (C) Mean (SD) proportion of total proliferating clones and clones containing NK (TCR-βNK1.1+DX5+) and T (NK1.1CD25+Thy1.2+ or NK1.1CD25+ Thy1.2+ TCR-β+) cells generated from single NKPs. Data expressed in relation to plated single cells, from 3 independent experiments, with total 167 plated cells and 105 clones analyzed. (D) Mean (SD) proportion of total clones and clones containing NK (TCR-βNK1.1+ DX5+), T (TCR-β+NK1.1CD4+/CD8+, NK1.1 CD25+Thy1.2+, or NK1.1CD25+Thy1.2+ TCR-β+), and TCR+NK1.1+ T cells, or combinations of these, generated from single NKPs. Data are expressed in relation to number of plated single cells, from 6 independent experiments, with a total 382 single cells plated and 201 clones analyzed. (E) Clones generated from single NKPs (shown in panels A and C), shown to have combined NK- and T-cell potential by FACS, were analyzed by RT-PCR for Cd3e, Ptcra, and Hprt gene expression. Thymocytes were used as positive control and OP9DL1 stroma cells cultured without hematopoietic cells as a negative control. Ethidium bromide–stained agarose gels with resulting PCR products from RT-PCR analysis of Cd3e, Ptcra, and Hprt. The photo has been taken using Gel logic 100 (Kodak). Data from 1 of 2 experiments with similar results. Note that clone 2 is the same clone derived from a single LinCD122+NK1.1DX5 NKP and analyzed by FACS in panel A.

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