Figure 3
Figure 3. B-ALL blasts exhibit phenotypic infidelity. (A) FACS profiles of leukemic cells in the spleen of recipients of BCR-ABL/GFP–transduced pro-B cells. Leukemic GFP+ cells included pro-B cells, pre-B cells, sIgM+ B cells, and more immature pre/pro-B cells (CD45R+CD43+CD24−IgM−). (B) CLPs were isolated from the bone marrow of wild-type mice (n = 4), transduced with BCR-ABL/GFP, and transplanted into Rag1−/− recipients. Four weeks after the primary transplant, total splenocytes and leukemic GFP+ cells with a CLP, pre/pro-B-, pro-B-, and pre-B-cell phenotype were isolated from diseased primary recipients (n = 2) and each population was transplanted into 4 secondary Rag1−/− recipients, respectively. All secondary recipients developed B-ALL by day 19 after transplantation. Note that leukemic cells in recipients of GFP+ pro-B and pre-B cells had phenotypes characteristic of more immature stages of B-cell development.

B-ALL blasts exhibit phenotypic infidelity. (A) FACS profiles of leukemic cells in the spleen of recipients of BCR-ABL/GFP–transduced pro-B cells. Leukemic GFP+ cells included pro-B cells, pre-B cells, sIgM+ B cells, and more immature pre/pro-B cells (CD45R+CD43+CD24IgM). (B) CLPs were isolated from the bone marrow of wild-type mice (n = 4), transduced with BCR-ABL/GFP, and transplanted into Rag1−/− recipients. Four weeks after the primary transplant, total splenocytes and leukemic GFP+ cells with a CLP, pre/pro-B-, pro-B-, and pre-B-cell phenotype were isolated from diseased primary recipients (n = 2) and each population was transplanted into 4 secondary Rag1−/− recipients, respectively. All secondary recipients developed B-ALL by day 19 after transplantation. Note that leukemic cells in recipients of GFP+ pro-B and pre-B cells had phenotypes characteristic of more immature stages of B-cell development.

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