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Flt-1, vascular endothelial growth factor receptor 1, is a novel cell surface marker for the lineage of monocyte-macrophages in humans by Asako Sawano,

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Presentation on theme: "Flt-1, vascular endothelial growth factor receptor 1, is a novel cell surface marker for the lineage of monocyte-macrophages in humans by Asako Sawano,"— Presentation transcript:

1 Flt-1, vascular endothelial growth factor receptor 1, is a novel cell surface marker for the lineage of monocyte-macrophages in humans by Asako Sawano, Shinobu Iwai, Yoshiko Sakurai, Mikito Ito, Kenya Shitara, Tatsutoshi Nakahata, and Masabumi Shibuya Blood Volume 97(3): February 1, 2001 ©2001 by American Society of Hematology

2 Specificity of mAbs KM1730 and KM1732 against Flt-1
Specificity of mAbs KM1730 and KM1732 against Flt-1.(A) Flow cytometric analysis of the cell binding of antihuman Flt-1 mAbs, KM1730 and KM1732. Specificity of mAbs KM1730 and KM1732 against Flt-1.(A) Flow cytometric analysis of the cell binding of antihuman Flt-1 mAbs, KM1730 and KM1732. NIH 3T3/Neo, NIH 3T3/Flt-1, and NIH 3T3/KDR cells were stained with KM1730, KM1732, or control mouse IgG1 mAb and analyzed by flow cytometry. (B) Flow cytometric analysis of the cell binding of antihuman KDR mAbs, KM1992 and KM1995. Asako Sawano et al. Blood 2001;97: ©2001 by American Society of Hematology

3 Inhibition of VEGF binding to Flt-1 by mAb KM1732 and flow cytometric analysis of HUVEC with mAbs.(A) Inhibition of specific 125I-VEGF binding to Flt-1 7N or KDR 7N-Fc by anti–Flt-1 mAb, KM1732. Inhibition of VEGF binding to Flt-1 by mAb KM1732 and flow cytometric analysis of HUVEC with mAbs.(A) Inhibition of specific 125I-VEGF binding to Flt-1 7N or KDR 7N-Fc by anti–Flt-1 mAb, KM1732. Experimental details are given in “Materials and methods.” The profiles of KM1732 (○) and control KM231 (▴) are shown. Arrowhead (dashed line), inhibitor 0 μg/mL. (B) Flow cytometric analysis of HUVEC, binding with antihuman Flt-1 mAbs, KM1730 and KM1732, or antihuman KDR mAb, KM1992. HUVECs were stained with KM1730, KM1732, KM1992, or control mouse IgG1 mAb and analyzed by flow cytometry. Asako Sawano et al. Blood 2001;97: ©2001 by American Society of Hematology

4 The major population of human peripheral blood monocytes expresses Flt-1.Flow cytometric analysis of peripheral blood mononuclear cells obtained by Ficoll/Paque density gradient centrifugation. The major population of human peripheral blood monocytes expresses Flt-1.Flow cytometric analysis of peripheral blood mononuclear cells obtained by Ficoll/Paque density gradient centrifugation. The M-fraction (monocyte fraction) in panel A was further analyzed by double staining with mAbs indicated in panels B, C, E, and F. (D) The L-fraction (lymphocyte fraction) in panel A was analyzed by double staining with anti-CD34 and anti–Flt-1 mAbs. FS indicates forward scatter; SSC, side scatter. Asako Sawano et al. Blood 2001;97: ©2001 by American Society of Hematology

5 VEGF induces cell migration of human peripheral monocytes and macrophagelike cells differentiated from cord blood cells.(A) Human peripheral blood monocytes were analyzed for VEGF-dependent cell migration. VEGF induces cell migration of human peripheral monocytes and macrophagelike cells differentiated from cord blood cells.(A) Human peripheral blood monocytes were analyzed for VEGF-dependent cell migration. Experimental procedures are outlined in detail in “Materials and methods.” In some wells, anti–Flt-1 neutralizing mAb KM1732 (1 μg/mL) was used for the blocking of Flt-1. (B) Human macrophagelike cells (adherent cells) were obtained from CD34+ cord blood cells after 12- to 14-day cultures (see “Materials and methods”), and 1 × 106/mL of cells in RPMI 1640 medium (FCS-free) were used for VEGF-dependent cell migration assay as indicated in panel A. Asako Sawano et al. Blood 2001;97: ©2001 by American Society of Hematology

6 CD34+Flt-1− cells in cord blood differentiate to CD97+Flt-1+macrophagelike cells after long-term culture.(A) Flow cytometric analysis of human cord blood mononuclear cells. CD34+Flt-1− cells in cord blood differentiate to CD97+Flt-1+macrophagelike cells after long-term culture.(A) Flow cytometric analysis of human cord blood mononuclear cells. The L-fraction was further analyzed by double staining with CD34 and CD97 (B), with CD34 and Flt-1 mAbs (C), or with CD34 and CD38 mAbs (D). After a 2-week culture with a cytokine mixture (see “Materials and methods”), CD34+CD38+ cells were again analyzed by flow cytometry (E). The M-fraction in panel E was further analyzed by double staining with CD34 and CD97 (F), or with CD34 and Flt-1 mAbs (G). FS indicates forward scatter; SSC, side scatter. Asako Sawano et al. Blood 2001;97: ©2001 by American Society of Hematology

7 Precursor cells for multinuclear osteoclasts exist in the Flt-1+CD11b+ cell fraction obtained from CD34+Flt-1− cord blood mononuclear cells.Flt-1+CD11b+ and Flt-1++CD11b++ cell fractions obtained from CD34+Flt-1− cord blood mononuclear cells after a 2-week ... Precursor cells for multinuclear osteoclasts exist in the Flt-1+CD11b+ cell fraction obtained from CD34+Flt-1− cord blood mononuclear cells.Flt-1+CD11b+ and Flt-1++CD11b++ cell fractions obtained from CD34+Flt-1− cord blood mononuclear cells after a 2-week incubation (A) were further cultured with M-CSF and ODF/sRANKL cytokines (see “Materials and methods”). Flt-1+CD11b+ cells but not Flt-1++CD11b++ cells (B) efficiently differentiated into multinuclear osteoclasts, which are negative for phagocytic activity but positive for expression of VNR. Scale bar indicates 100 μm in length. The numbers of the multinuclear (▪) and mononuclear (░) osteoclasts started from 3 × 104Flt-1+CD11b+ or Flt-1++CD11b++ cells are indicated in panel C. Asako Sawano et al. Blood 2001;97: ©2001 by American Society of Hematology

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