Fig. 1.
Fig. 1. Characterization of injected ES cell-derived VPCs and transplantation of VPCs in tumor angiogenesis model. / (A-C) Flow cytometric sorting and analysis of Flk-1+undifferentiated VPCs. CCE/nLacZ ES cells were cultured on type IV collagen-coated dishes in the absence of leukemia inhibitory factor (LIF). (A) After 4 days of differentiation, Flk-1+VPCs were sorted by flow cytometry (undifferentiated VPCs). (B-C) Flk-1+ undifferentiated VPCs did not express other EC markers (VE-cadherin, PECAM-1, and CD34). (D-G) After a 3-day incubation of Flk-1+ undifferentiated VPCs, differentiated VPCs were induced. Flow cytometric analysis revealed that about 30% were Flk-1+VE-cadherin+PECAM-1+CD34+ECs and 70% were Flk-1−VE-cadherin−PECAM-1−CD34−(D-E). (F-G) Double staining of differentiated VPCs was performed as previously reported.1 About 70% of cells that lost Flk-1 expression were positive for SMA (brown) and surrounded PECAM-1+ EC sheets (blue). (F) The expressions of PECAM-1 and SMA were exclusive for differentiated VPCs (scale bar, 100 μm). (G) Fluorescent immunostaining of Flk-1 (red) and SMA (green) revealed that they were expressed exclusively (scale bar 20 μm). (H-I) Tumor angiogenesis model of nude mice. Subcutaneous transplantation of VPCs to the growing tumor 7 days after C6 glioblastoma cell implantation was performed (H). Vascularized tumor was obtained 5 days after VPC implantation (I). Monoclonal antibody (MoAb) for murine E-cadherin (epithelial cadherin; ECCD2), Flk-1 (AVAS12), and vascular endothelial (VE)-cadherin (VECD1) have been described previously.67Fluorescein isothiocyanate (FITC)-conjugated MoAb for murine PECAM-1 (Mec13.3) and FITC-conjugated MoAb for CD34 (RAM34) were purchased from Pharmingen (San Diego, CA). MoAbs for SMA 1A4, CCA7 were obtained from Neo Markers (Fremont, CA) and ENZO Diagnostics (Farmingdale, NY).

Characterization of injected ES cell-derived VPCs and transplantation of VPCs in tumor angiogenesis model.

(A-C) Flow cytometric sorting and analysis of Flk-1+undifferentiated VPCs. CCE/nLacZ ES cells were cultured on type IV collagen-coated dishes in the absence of leukemia inhibitory factor (LIF). (A) After 4 days of differentiation, Flk-1+VPCs were sorted by flow cytometry (undifferentiated VPCs). (B-C) Flk-1+ undifferentiated VPCs did not express other EC markers (VE-cadherin, PECAM-1, and CD34). (D-G) After a 3-day incubation of Flk-1+ undifferentiated VPCs, differentiated VPCs were induced. Flow cytometric analysis revealed that about 30% were Flk-1+VE-cadherin+PECAM-1+CD34+ECs and 70% were Flk-1VE-cadherinPECAM-1CD34(D-E). (F-G) Double staining of differentiated VPCs was performed as previously reported.1 About 70% of cells that lost Flk-1 expression were positive for SMA (brown) and surrounded PECAM-1+ EC sheets (blue). (F) The expressions of PECAM-1 and SMA were exclusive for differentiated VPCs (scale bar, 100 μm). (G) Fluorescent immunostaining of Flk-1 (red) and SMA (green) revealed that they were expressed exclusively (scale bar 20 μm). (H-I) Tumor angiogenesis model of nude mice. Subcutaneous transplantation of VPCs to the growing tumor 7 days after C6 glioblastoma cell implantation was performed (H). Vascularized tumor was obtained 5 days after VPC implantation (I). Monoclonal antibody (MoAb) for murine E-cadherin (epithelial cadherin; ECCD2), Flk-1 (AVAS12), and vascular endothelial (VE)-cadherin (VECD1) have been described previously.6 7Fluorescein isothiocyanate (FITC)-conjugated MoAb for murine PECAM-1 (Mec13.3) and FITC-conjugated MoAb for CD34 (RAM34) were purchased from Pharmingen (San Diego, CA). MoAbs for SMA 1A4, CCA7 were obtained from Neo Markers (Fremont, CA) and ENZO Diagnostics (Farmingdale, NY).

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