Article

Src and FAK mediate cell–matrix adhesion-dependent activation of met during transformation of breast epithelial cells

  1. Angela Y. Hui1,
  2. Jalna A. Meens1,
  3. Colleen Schick1,
  4. Shawna L. Organ1,
  5. Hui Qiao1,†,
  6. Eric A. Tremblay1,
  7. Erik Schaeffer3,
  8. Shashi Uniyal2,
  9. Bosco M.C. Chan2,
  10. Bruce E. Elliott1,*

Article first published online: 16 JUN 2009

DOI: 10.1002/jcb.22219

Issue

Journal of Cellular Biochemistry

Journal of Cellular Biochemistry

Volume 107, Issue 6, pages 1168–1181, 15 August 2009

Additional Information

How to Cite

Hui, A. Y., Meens, J. A., Schick, C., Organ, S. L., Qiao, H., Tremblay, E. A., Schaeffer, E., Uniyal, S., Chan, B. M.C. and Elliott, B. E. (2009), Src and FAK mediate cell–matrix adhesion-dependent activation of met during transformation of breast epithelial cells. J. Cell. Biochem., 107: 1168–1181. doi: 10.1002/jcb.22219

Author Information

  1. 1

    Division of Cancer Biology and Genetics, Queen's University Cancer Research Institute, Kingston, Ontario, Canada K7L 3N6

  2. 2

    Department of Microbiology and Immunology, University of Western Ontario, London, Ontario, Canada N6A 5C1

  3. 3

    QCB Biosource International, 3 Avenue D, Hopkinton, Massachusetts 01748

  1. Department of Pathology, University of Virginia, Old Medical School 4839, Charlottesville, VA 22908.

*Rm A307 Botterell Hall, 18 Stuart St., Kington, Ontario, Canada K7L 3N6.

Publication History

  1. Issue published online: 23 JUL 2009
  2. Article first published online: 16 JUN 2009
  3. Manuscript Accepted: 22 APR 2009
  4. Manuscript Received: 11 JUL 2008

Funded by

  • Canadian Institutes of Health Research. Grant Number: 36462
  • Canadian Breast Cancer Research Alliance. Grant Number: 14315

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Keywords:

  • Src;
  • FAK;
  • Met;
  • cell adhesion;
  • transformation;
  • breast cancer

Abstract

Cell–matrix adhesion has been shown to promote activation of the hepatocyte growth factor receptor, Met, in a ligand-independent manner. This process has been linked to transformation and tumorigenesis in a variety of cancer types. In the present report, we describe a key role of integrin signaling via the Src/FAK axis in the activation of Met in breast epithelial and carcinoma cells. Expression of an activated Src mutant in non-neoplastic breast epithelial cells or in carcinoma cells was found to increase phosphorylation of Met at regulatory tyrosines in the auto-activation loop domain, correlating with increased cell spreading and filopodia extensions. Furthermore, phosphorylated Met is complexed with β1 integrins and is co-localized with vinculin and FAK at focal adhesions in epithelial cells expressing activated Src. Conversely, genetic or pharmacological inhibition of Src abrogates constitutive Met phosphorylation in carcinoma cells or epithelial cells expressing activated Src, and inhibits filopodia formation. Interestingly, Src-dependent phosphorylation of Met requires cell–matrix adhesion, as well as actin stress fiber assembly. Phosphorylation of FAK by Src is also required for Src-induced Met phosphorylation, emphasizing the importance of the Src/FAK signaling pathway. However, stimulation of Met phosphorylation by addition of exogenous HGF in epithelial cells is refractory to inhibition of Src family kinases, indicating that HGF-dependent and Src/integrin-dependent Met activation occur via distinct mechanisms. Together these findings demonstrate a novel mechanism by which the Src/FAK axis links signals from the integrin adhesion complex to promote Met activation in breast epithelial cells. J. Cell. Biochem. 107: 1168–1181, 2009. © 2009 Wiley-Liss, Inc.

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