Figure 5
Figure 5. Expansion of CCL3-expressing basophil-like leukemia cells in CML BM. (A) CD45.1+ congenic mouse-derived LICs were subjected to the CML model. The proportion of Ki67+ cells among CD45.2+ recipient-derived normal KLS+ cells was determined in the tibial BM. Data represent mean ± SD from 4 independent experiments. *P < .05; N.S., no significant difference by Dunnett’s test. (B) WT donor-derived LICs were subjected to the CML model. Expression of basophilic phenotypic markers was determined for BCR-ABL (GFP)−CCL3+ normal cells (R1) or GFP+CCL3+ leukemia cells (R2), and CCL3-expression levels were compared between GFP− and GFP+ basophil-phenotypic cells in the tibial BMs at 2 to 3 weeks after transplantation. Rat IgG2a was used as an isotype control. Representative results from 3 independent experiments are shown. (C) Proportion of Ly6G+ or FcεR1+ cells in normal tibial BM cells or GFP+ BM leukemia cells harvested from CML mice at 3 weeks after transplantation. Data represent means ± SD from 4 independent experiments. *P < .05; N.S., no significant difference by the Mann-Whitney U test. (D) Expression of Ly6G and FcεR1 on GFP+ leukemia cells in the tibial BM and PB at 3 weeks after transplantation. Representative results from among 4 individual animals are shown along with the percentages of Ly6G−FcεR1+ cells among GFP+ leukemia cells. (E) Expression of CCL3 (fast blue) and ENPP3 (fast red) in the BM biopsy specimens of patients with CML. Representative results from 5 patients with CML are shown. Images were obtained using a BX50 microscope using a ×20 objective lens. Scale bar, 20 μm. Arrows indicate CCL3+ENPP3+ cells. (F) Expression of CCL3 in FcεR1+ENPP3+ cells in the BM biopsy specimens of patients with CML. Mouse IgG2b was used as an isotype control. Each histogram represents 1 individual.

Expansion of CCL3-expressing basophil-like leukemia cells in CML BM. (A) CD45.1+ congenic mouse-derived LICs were subjected to the CML model. The proportion of Ki67+ cells among CD45.2+ recipient-derived normal KLS+ cells was determined in the tibial BM. Data represent mean ± SD from 4 independent experiments. *P < .05; N.S., no significant difference by Dunnett’s test. (B) WT donor-derived LICs were subjected to the CML model. Expression of basophilic phenotypic markers was determined for BCR-ABL (GFP)CCL3+ normal cells (R1) or GFP+CCL3+ leukemia cells (R2), and CCL3-expression levels were compared between GFP and GFP+ basophil-phenotypic cells in the tibial BMs at 2 to 3 weeks after transplantation. Rat IgG2a was used as an isotype control. Representative results from 3 independent experiments are shown. (C) Proportion of Ly6G+ or FcεR1+ cells in normal tibial BM cells or GFP+ BM leukemia cells harvested from CML mice at 3 weeks after transplantation. Data represent means ± SD from 4 independent experiments. *P < .05; N.S., no significant difference by the Mann-Whitney U test. (D) Expression of Ly6G and FcεR1 on GFP+ leukemia cells in the tibial BM and PB at 3 weeks after transplantation. Representative results from among 4 individual animals are shown along with the percentages of Ly6GFcεR1+ cells among GFP+ leukemia cells. (E) Expression of CCL3 (fast blue) and ENPP3 (fast red) in the BM biopsy specimens of patients with CML. Representative results from 5 patients with CML are shown. Images were obtained using a BX50 microscope using a ×20 objective lens. Scale bar, 20 μm. Arrows indicate CCL3+ENPP3+ cells. (F) Expression of CCL3 in FcεR1+ENPP3+ cells in the BM biopsy specimens of patients with CML. Mouse IgG2b was used as an isotype control. Each histogram represents 1 individual.

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