Shear stress and VEGF activate IKK via the Flk-1/Cbl/Akt signaling pathway

doi:10.1152/ajpheart.00237.2003

Shear stress and VEGF activate IKK via the Flk-1/Cbl/Akt signaling pathway

Yingxiao Wang, Joann Chang, Yi-Chen Li, Yi-Shuan Li, John Y.-J. Shyy, and Shu Chien

Department of Bioengineering and The Whitaker Institute of Biomedical Engineering, University of California-San Diego, La Jolla, California 92093

Submitted 18 March 2003 ; accepted in final form 2 October 2003

Vascular endothelial cells are continuously exposed to mechanical(e.g., shear stress) and chemical (e.g., growth factors) stimuli.It is important to elucidate the mechanisms by which cells perceiveand integrate these different stimuli to regulate the downstreamsignaling pathways. We (50) have previously reported the shear-inducedinterplay between two membrane receptors, integrins and Flk-1.In the present study, we investigated the molecular mechanismsregulating the downstream I ${kappa}$ B kinase (IKK) pathway in responseto shear stress and VEGF. Both shear stress and VEGF induceda transient increase of IKK activity. These effects were inhibitedby SU-1498, a specific Flk-1 inhibitor, and by a negative mutantof Casitas B-lineage lymphoma (Cbl) with tyrosine-to-phenylalaninemutations at sites 700, 731, and 774 (Cbl_nm). Because Flk-1and Cbl form a complex upon shearing or VEGF applications (50),these results suggest that shear stress and VEGF activate IKKvia the receptor Flk-1 and its recruitment of the adapter proteinCbl. The inhibition of the shear- and VEGF-induced IKK activitiesby a negative mutant of Akt indicates that Akt acts upstreamto IKK in response to shear stress and VEGF. Furthermore, SU-1498and Cbl_-nm abolished the shear- and VEGF-induced Akt activity,indicating that Akt acts at a level downstream to Flk-1 andCbl. Therefore, our results indicate that the signaling eventsinduced by shear stress and VEGF converge at the membrane receptorFlk-1 and that these stimuli share the Flk-1/Cbl/Akt pathwayin activating IKK activation.

flow; vascular endothelial growth factor; I ${kappa}$ B kinase

Address for reprint requests and other correspondence: S. Chien, Dept. of Bioengineering, Univ. of California-San Diego, La Jolla, CA 92093-0427 (E-mail: shuchien{at}ucsd.edu).

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