Fig. 4.
Fig. 4. Phenotype of hematopoietic cells differentiated from the VE-cadherin+ 4-integrin+ and VE-cadherin− 4-integrin+ cell fractions. The two fractions were sorted from differentiating CCE cells as shown in Fig 3A and cultured in a type IV collagen-coated dish in the presence of IL-3, Epo, G-CSF, and MGF for 7 days. (A through C) May-Gruenwald Giemsa staining of cytospots prepared from the cultured cells initiated from the VE-cadherin+4-integrin+ fraction. Erythroblasts (A), monocytes/macrophages (B), and polymorphonuclear cells (C) are observed. The bars represent 25 μm. (D and E) Expression of Mac-1 and TER119 on the cultured cells initiated from the VE-cadherin+ 4-integrin+ (D) and VE-cadherin− 4-integrin+ (E) cell fractions analyzed by flow cytometry. The numbers indicate the percentage of cells that appeared in each quadrant. The result shown is a representative of two independent experiments.

Phenotype of hematopoietic cells differentiated from the VE-cadherin+ 4-integrin+ and VE-cadherin 4-integrin+ cell fractions. The two fractions were sorted from differentiating CCE cells as shown in Fig 3A and cultured in a type IV collagen-coated dish in the presence of IL-3, Epo, G-CSF, and MGF for 7 days. (A through C) May-Gruenwald Giemsa staining of cytospots prepared from the cultured cells initiated from the VE-cadherin+4-integrin+ fraction. Erythroblasts (A), monocytes/macrophages (B), and polymorphonuclear cells (C) are observed. The bars represent 25 μm. (D and E) Expression of Mac-1 and TER119 on the cultured cells initiated from the VE-cadherin+ 4-integrin+ (D) and VE-cadherin 4-integrin+ (E) cell fractions analyzed by flow cytometry. The numbers indicate the percentage of cells that appeared in each quadrant. The result shown is a representative of two independent experiments.

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