Fig. 2. Overexpression of. / Hoxa9 in the transplantation chimeras enhances myelopoiesis and suppresses B lymphopoiesis. (A) Flow cytometric analysis of hematopoietic cells from bone marrow and spleen of representative EGFP control and Hoxa9-EGFP mice 4 weeks after transplantation. For all dot-plots analyzed, EGFP expression is shown on the x-axis and that of Mac1 or B220 on the y-axis. Hoxa9 overexpression led to a significant increase in mature GFP+/Mac1+ myeloid cells in the bone marrow (Mac1+ myeloid cells ranged from 53%-56% as compared with 32%-38% for control GFP mice, n = 3 per group, P = .02) and a decrease in GFP+/B220+ (range 13%-25%) forHoxa9 mice compared to GFP controls (range 24%-38%,P = .05). (B) Results shown are the means ± SD of the numbers of transduced (G418r) and untransduced in vitro myeloid CFCs in bone marrow and spleen and of bone marrow pre-B CFCs in 4 neo and 4 Hoxa9 chimeras. (C) Analysis of the types of transduced (G418r) myeloid CFCs present in the bone marrow of Hoxa9 and neo chimeras. Well-isolated day 12 G418r colonies were randomly picked and examined after Wright-Giemsa staining. Results are expressed as the means ± SD of the colony types generated from bone marrow of 4Hoxa9 and 4 neo chimeras (20 colonies analyzed for each mouse). The granulocyte-erythrocyte-macrophage-megakaryocyte (GEMM) and granulocyte and granulocyte-macrophage (G/GM) colonies were significantly increased and the macrophage (M) significantly decreased in the Hoxa9 mice compared with the neocontrol mice.
Fig. 2.

Overexpression of

Hoxa9 in the transplantation chimeras enhances myelopoiesis and suppresses B lymphopoiesis. (A) Flow cytometric analysis of hematopoietic cells from bone marrow and spleen of representative EGFP control and Hoxa9-EGFP mice 4 weeks after transplantation. For all dot-plots analyzed, EGFP expression is shown on the x-axis and that of Mac1 or B220 on the y-axis. Hoxa9 overexpression led to a significant increase in mature GFP+/Mac1+ myeloid cells in the bone marrow (Mac1+ myeloid cells ranged from 53%-56% as compared with 32%-38% for control GFP mice, n = 3 per group, P = .02) and a decrease in GFP+/B220+ (range 13%-25%) forHoxa9 mice compared to GFP controls (range 24%-38%,P = .05). (B) Results shown are the means ± SD of the numbers of transduced (G418r) and untransduced in vitro myeloid CFCs in bone marrow and spleen and of bone marrow pre-B CFCs in 4 neo and 4 Hoxa9 chimeras. (C) Analysis of the types of transduced (G418r) myeloid CFCs present in the bone marrow of Hoxa9 and neo chimeras. Well-isolated day 12 G418r colonies were randomly picked and examined after Wright-Giemsa staining. Results are expressed as the means ± SD of the colony types generated from bone marrow of 4Hoxa9 and 4 neo chimeras (20 colonies analyzed for each mouse). The granulocyte-erythrocyte-macrophage-megakaryocyte (GEMM) and granulocyte and granulocyte-macrophage (G/GM) colonies were significantly increased and the macrophage (M) significantly decreased in the Hoxa9 mice compared with the neocontrol mice.

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