Fluid shear stress induces differentiation of Flk-1-positive embryonic stem cells into vascular endothelial cells in vitro

doi:10.1152/ajpheart.00956.2004

Fluid shear stress induces differentiation of Flk-1-positive embryonic stem cells into vascular endothelial cells in vitro

Kimiko Yamamoto,¹ Takaaki Sokabe,¹ Tetsuro Watabe,² Kohei Miyazono,² Jun K. Yamashita,³ Syotaro Obi,¹ Norihiko Ohura,¹ Akiko Matsushita,¹ Akira Kamiya,⁴ and Joji Ando¹

¹Department of Biomedical Engineering and ²Department of Molecular Pathology, Graduate School of Medicine, University of Tokyo, Tokyo; ³Stem Cell Research Center, Institute for Frontier Medical Science, Kyoto University, Kyoto; and ⁴Interdisciplinary Science Center, Nihon University, Tokyo, Japan

Submitted 13 September 2004 ; accepted in final form 22 November 2004

Pluripotent embryonic stem (ES) cells are capable of differentiatinginto all cell lineages, but the molecular mechanisms that regulateES cell differentiation have not been sufficiently explored.In this study, we report that shear stress, a mechanical forcegenerated by fluid flow, can induce ES cell differentiation.When Flk-1-positive (Flk-1⁺) mouse ES cells were subjected toshear stress, their cell density increased markedly, and a largerpercentage of the cells were in the S and G₂-M phases of thecell cycle than Flk-1⁺ ES cells cultured under static conditions.Shear stress significantly increased the expression of the vascularendothelial cell-specific markers Flk-1, Flt-1, vascular endothelialcadherin, and PECAM-1 at both the protein level and the mRNAlevel, but it had no effect on expression of the mural cellmarker smooth muscle ${alpha}$ -actin, blood cell marker CD3, or the epithelialcell marker keratin. These findings indicate that shear stressselectively promotes the differentiation of Flk-1⁺ ES cellsinto the endothelial cell lineage. The shear stressed Flk-1⁺ES cells formed tubelike structures in collagen gel and developedan extensive tubular network significantly faster than the staticcontrols. Shear stress induced tyrosine phosphorylation of Flk-1in Flk-1⁺ ES cells that was blocked by a Flk-1 kinase inhibitor,SU1498, but not by a neutralizing antibody against VEGF. SU1498also abolished the shear stress-induced proliferation and differentiationof Flk-1⁺ ES cells, indicating that a ligand-independent activationof Flk-1 plays an important role in the shear stress-mediatedproliferation and differentiation by Flk-1⁺ ES cells.

hemodynamic force; blood vessel; vascular endothelial growth factor; mechanical stress; neovascularization

Address for reprint requests and other correspondence: J. Ando, Dept. of Biomedical Engineering, Graduate School of Medicine, Univ. of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-0033, Japan (E-mail: joji{at}m.u-tokyo.ac.jp)

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