Figure 4
Figure 4. Ectopic and orthotopic transplantation of cultured cells into immunodeficient mice. Multiclonal cultures generated from CD271+/CD45−/CD146−/low and CD271+/CD45−/CD146+ primary BM-MNCs were transplanted either subcutaneously (with HA/TCP particles) or intrafemorally into immunodeficient mice. (A-B) Representative section of hematoxylin/eosin–stained transplanted cells and HA/TCP carrier particles 8 weeks after subcutaneous transplantation of CD271+/CD45−/CD146+–derived MSCs. (A) Bone (b), adipocytes (a), fibroblastic tissue (ft), and capillaries (*) are indicated. Dark brown areas in the left photograph indicate HA/TCP carrier particles. Black square in the left photograph is shown as a magnification (original magnification 10×). (B) Invading hematopoietic cells could be detected in the transplanted cells (black arrow). Original magnification was 10×. Scale bar indicates 50 μm. (C) GFP+ cells generated from either CD271+/CD45−/CD146−/low (top row) or CD271+/CD45−/CD146+ (bottom row) cells analyzed 8 weeks after intrafemoral transplantation. GFP+ cells (green) could be detected as bone-lining cells, some of which expressed N-cadherin (N-Cad, red) (white arrows, left panels), and in perivascular regions surrounding the endothelium (CD31, red) (white arrowheads, right panels). (D) Reticular GFP+ cells (green) could be detected independently from vessels in the marrow space (white arrowheads). The photograph shows reticular GFP+ cells generated from CD271+/CD45−/CD146−/low cells. (E) Bone marrow section from a control mouse (injected with Dulbecco PBS only) stained with anti–GFP and CD31 antibody. Nuclei were stained with TO-PRO3 (blue). Cortical bone (b) is indicated. Scale bars indicate 25 μm. The photographs were taken with a confocal microscope (DMRE; Leica).

Ectopic and orthotopic transplantation of cultured cells into immunodeficient mice. Multiclonal cultures generated from CD271+/CD45/CD146−/low and CD271+/CD45/CD146+ primary BM-MNCs were transplanted either subcutaneously (with HA/TCP particles) or intrafemorally into immunodeficient mice. (A-B) Representative section of hematoxylin/eosin–stained transplanted cells and HA/TCP carrier particles 8 weeks after subcutaneous transplantation of CD271+/CD45/CD146+–derived MSCs. (A) Bone (b), adipocytes (a), fibroblastic tissue (ft), and capillaries (*) are indicated. Dark brown areas in the left photograph indicate HA/TCP carrier particles. Black square in the left photograph is shown as a magnification (original magnification 10×). (B) Invading hematopoietic cells could be detected in the transplanted cells (black arrow). Original magnification was 10×. Scale bar indicates 50 μm. (C) GFP+ cells generated from either CD271+/CD45/CD146−/low (top row) or CD271+/CD45/CD146+ (bottom row) cells analyzed 8 weeks after intrafemoral transplantation. GFP+ cells (green) could be detected as bone-lining cells, some of which expressed N-cadherin (N-Cad, red) (white arrows, left panels), and in perivascular regions surrounding the endothelium (CD31, red) (white arrowheads, right panels). (D) Reticular GFP+ cells (green) could be detected independently from vessels in the marrow space (white arrowheads). The photograph shows reticular GFP+ cells generated from CD271+/CD45/CD146−/low cells. (E) Bone marrow section from a control mouse (injected with Dulbecco PBS only) stained with anti–GFP and CD31 antibody. Nuclei were stained with TO-PRO3 (blue). Cortical bone (b) is indicated. Scale bars indicate 25 μm. The photographs were taken with a confocal microscope (DMRE; Leica).

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