Figure 6.
In vivo modeling of erythroid transformation by aberrant SKI expression. (A) Experimental design: hematopoietic stem cells (HSC), granulocyte-monocyte progenitors (GMP), and megakaryocyte-erythroid progenitors (MEP) were sorted from WT mice, retrovirally transduced with SKI or an empty vector (Ctrl) carrying an IRES-GFP expression cassette, and injected into lethally irradiated recipients. (B) Left, GFP+ cells (percentage) in the BM of transplanted mice. Mean plus or minus SD is shown (n = 5 per group). Right, Kaplan-Meier plot of disease symptoms in transplanted mice. Only mice transplanted with SKI-transduced HSCs and MEP developed disease. (C) Flow cytometry analysis of myeloid cells (CD11b+Gr-1+), erythroid progenitors (CD71+Ter119+), B cells (B220+), and T cells (CD4+CD8+) gated for viable GFP+ cells, in spleens of mice transplanted with HSC (Ctrl vs SKI) or MEP (SKI) cells. (D) Percentage of myeloid cells (CD11b+Gr1+), erythroid progenitors (CD71+Ter119+), B cells (B220+), and T cells (CD4+CD8+) within viable GFP+ cells, in HSC-Control (Ctrl), HSC-SKI, and MEP-SKI in primary mice BM and spleen. Mean plus or minus SD is shown (n = 5 per group). (E) Number of GFP+ and GFP− total BM cells, myeloid cells (CD11b+Gr1+), and erythroid progenitors (CD71+Ter119+) in the BM of diseased primary recipients. Mean plus or minus SD is shown (n = 5 per group). (F) Flow cytometry analysis of terminal erythroid differentiation in the BM of diseased HSC (Ctrl and SKI) and MEP-SKI recipients, determined by forward scatter (FSC-A) and CD44 expression gated for viable Ter119+ cells. Bottom panel, Mean plus or minus SD (n = 5 per group) of the percentage of each population. (G) Histopathology analysis of BM spleen and liver of mice transplanted with HSC-Ctrl (left row) or HSC-SKI (right row) stained with hematoxylin-eosin (top 6 photomicrographs; original magnification ×20) or with a GATA1 antibody (bottom 4 photomicrographs; original magnification ×20).

In vivo modeling of erythroid transformation by aberrant SKI expression. (A) Experimental design: hematopoietic stem cells (HSC), granulocyte-monocyte progenitors (GMP), and megakaryocyte-erythroid progenitors (MEP) were sorted from WT mice, retrovirally transduced with SKI or an empty vector (Ctrl) carrying an IRES-GFP expression cassette, and injected into lethally irradiated recipients. (B) Left, GFP+ cells (percentage) in the BM of transplanted mice. Mean plus or minus SD is shown (n = 5 per group). Right, Kaplan-Meier plot of disease symptoms in transplanted mice. Only mice transplanted with SKI-transduced HSCs and MEP developed disease. (C) Flow cytometry analysis of myeloid cells (CD11b+Gr-1+), erythroid progenitors (CD71+Ter119+), B cells (B220+), and T cells (CD4+CD8+) gated for viable GFP+ cells, in spleens of mice transplanted with HSC (Ctrl vs SKI) or MEP (SKI) cells. (D) Percentage of myeloid cells (CD11b+Gr1+), erythroid progenitors (CD71+Ter119+), B cells (B220+), and T cells (CD4+CD8+) within viable GFP+ cells, in HSC-Control (Ctrl), HSC-SKI, and MEP-SKI in primary mice BM and spleen. Mean plus or minus SD is shown (n = 5 per group). (E) Number of GFP+ and GFP total BM cells, myeloid cells (CD11b+Gr1+), and erythroid progenitors (CD71+Ter119+) in the BM of diseased primary recipients. Mean plus or minus SD is shown (n = 5 per group). (F) Flow cytometry analysis of terminal erythroid differentiation in the BM of diseased HSC (Ctrl and SKI) and MEP-SKI recipients, determined by forward scatter (FSC-A) and CD44 expression gated for viable Ter119+ cells. Bottom panel, Mean plus or minus SD (n = 5 per group) of the percentage of each population. (G) Histopathology analysis of BM spleen and liver of mice transplanted with HSC-Ctrl (left row) or HSC-SKI (right row) stained with hematoxylin-eosin (top 6 photomicrographs; original magnification ×20) or with a GATA1 antibody (bottom 4 photomicrographs; original magnification ×20).

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