American Society of Hematology

Figure 1

$Figure 1. Exogenous MN1 inhibits the differentiation of AML cell lines toward monocytes and granulocytes. (A) Cytospin preprations of FACS-sorted GFP+ U937 and HL60 cell lines transduced with control GFP (mock) or MN1-expressing retroviruses (MN1), stained with anti-MN1 antibody (red). Blue represents nuclear staining with 4,6-diamidino-2-phenylindole. (B) MN1 expression in transduced HL60 and U937 cells was analyzed using real-time RT-PCR. Each sample was analyzed in triplicate, and the signals were normalized for endogenous HPRT expression. Histogram shows mean ± SEM of duplicates. MN1(−) indicates mock; MN1(+), MN1-transduced cells; and ND, not determined. (C) Sorted GFP+ HL60 cells were seeded at day 0 in duplicates in 6-well plates (105 cells/mL, 4 mL/well) with indicated amounts of vitamin D3, ATRA, or vehicle, and cells were counted at consecutive days (mean ± SEM of duplicates). ***P = .001. (D) Cells were treated with 1 μM ATRA or (E) with the indicated amount of vitamin D3 or the same volume of vehicle in duplicates for 72 hours. Expression of CD11b and CD15 was analyzed by FACS. The result from 1 representative example is shown. (F) Low, medium (mid), or high GFP-expressing U937-MN1 cells were FACS-sorted (top left panel; GFP gates) and MN1 expression (normalized to HPRT) was compared with that of human CD34-BM cells and AML patients (1-6) using real-time RT-PCR (top right histogram). CD11b expression of cells treated for 48 hours with vehicle or the indicated amounts of vitamin D3 or ATRA was determined using FACS in all GFP+ cells (bottom panels, blue, magenta and orange together; U937-mock and U937-MN1) or in GFP-low fractions (blue panels). All experiments were repeated a minimum of 3 times.$

Exogenous MN1 inhibits the differentiation of AML cell lines toward monocytes and granulocytes. (A) Cytospin preprations of FACS-sorted GFP⁺ U937 and HL60 cell lines transduced with control GFP (mock) or MN1-expressing retroviruses (MN1), stained with anti-MN1 antibody (red). Blue represents nuclear staining with 4,6-diamidino-2-phenylindole. (B) MN1 expression in transduced HL60 and U937 cells was analyzed using real-time RT-PCR. Each sample was analyzed in triplicate, and the signals were normalized for endogenous HPRT expression. Histogram shows mean ± SEM of duplicates. MN1(−) indicates mock; MN1(+), MN1-transduced cells; and ND, not determined. (C) Sorted GFP⁺ HL60 cells were seeded at day 0 in duplicates in 6-well plates (10⁵ cells/mL, 4 mL/well) with indicated amounts of vitamin D₃, ATRA, or vehicle, and cells were counted at consecutive days (mean ± SEM of duplicates). ***P = .001. (D) Cells were treated with 1 μM ATRA or (E) with the indicated amount of vitamin D₃ or the same volume of vehicle in duplicates for 72 hours. Expression of CD11b and CD15 was analyzed by FACS. The result from 1 representative example is shown. (F) Low, medium (mid), or high GFP-expressing U937-MN1 cells were FACS-sorted (top left panel; GFP gates) and MN1 expression (normalized to HPRT) was compared with that of human CD34-BM cells and AML patients (1-6) using real-time RT-PCR (top right histogram). CD11b expression of cells treated for 48 hours with vehicle or the indicated amounts of vitamin D₃ or ATRA was determined using FACS in all GFP⁺ cells (bottom panels, blue, magenta and orange together; U937-mock and U937-MN1) or in GFP-low fractions (blue panels). All experiments were repeated a minimum of 3 times.

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