EphB3 Stimulates Cell Migration and Metastasis in a Kinase-dependent Manner through Vav2-Rho GTPase Axis in Papillary Thyroid Cancer*

  1. Dong Xie2
  1. From the Institute for Nutritional Sciences, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences, Shanghai 200031, China and
  2. the §Department of General Surgery, Fengxian Hospital Affiliated to Southern Medical University, 6600 Nanfeng Road, Shanghai 201499, China
  1. 1 To whom correspondence may be addressed. Tel.: 86-21-57424800; Fax: 86-21-57424800; E-mail: lejing1996{at}aliyun.com.
  2. 2 To whom correspondence may be addressed: Laboratory of Molecular Oncology, Institute for Nutritional Sciences, Shanghai Institutes of Biological Sciences, Chinese Academy of Sciences, 320 Yue-Yang Rd. Shanghai 200031, China. Tel.: 86-21-54920918; Fax: 86-21-54920291; E-mail: dxie{at}sibs.ac.cn.

  1. Edited by Xiao-Fan Wang

Abstract

Eph receptors, the largest subfamily of transmembrane tyrosine kinase receptors, have been increasingly implicated in various physiologic and pathologic processes, and the roles of the Eph family members during tumorigenesis have recently attracted growing attentions. In the present study, we explored the function of EphB3, one member of Eph family, in papillary thyroid cancer (PTC). We found that the expression of EphB3 was significantly elevated in PTC. Either overexpression of EphB3 or activation of EphB3 by EfnB1-Fc/EfnB2-Fc stimulated in vitro migration of PTC cells. In contrast, siRNA-mediated knockdown of EphB3 or EphB3-Fc treatment, which only blocked EphB3-mediated forward signaling, inhibited migration and metastasis of PTC cells. A mechanism study revealed that EphB3 knockdown led to suppressed activity of Rac1 and enhanced activity of RhoA. Moreover, we found that Vav2, an important regulator of Rho family GTPases, was activated by EphB3 in a kinase-dependent manner. Altogether, our work suggested that EphB3 acted as a tumor promoter in PTC by increasing the in vitro migration as well as the in vivo metastasis of PTC cells through regulating the activities of Vav2 and Rho GTPases in a kinase-dependent manner.

Footnotes

  • * This work was supported by the National Basic Research Program of China (2010CB912102), Ministry of Science and Technology Key Program (2012ZX10002009-017), the National Natural Science Foundation of China (81230058, 81321062, 30930023, 31100551, 31201046, 81021002, 31520103907), CAS/SAFEA International Partnership Program for Creative Research Teams, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences (SIBS2012004), and Technology Commission of Shanghai Municipality (12XD1405600) (to D. X.). This work was also supported by Young Scientist Fund of National Science Foundation of China (31201046) and Sanofi-Aventis-Sibs Scholarship Program (2011) (to J.-J. L.). The authors declare that they have no conflicts of interest with the contents of this article.

  • Graphic This article contains supplemental Fig. 1.

  • Received July 28, 2016.
  • Revision received November 28, 2016.
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  1. First Published on December 16, 2016 doi: 10.1074/jbc.M116.750349 The Journal of Biological Chemistry 292, 1112-1121.
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