Autocrine epidermal growth factor signaling stimulates directionally persistent mammary epithelial cell migration

doi:10.1083/jcb.200109060

Published 24 December 2001. doi:10.1083/jcb.200109060

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© The Rockefeller University Press, 0021-9525/2001/12/1123 $5.00
The Journal of Cell Biology, Volume 155, Number 7, December 24, 2001 1123-1128

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Autocrine epidermal growth factor signaling stimulates directionally persistent mammary epithelial cell migration

Gargi Maheshwari¹, H. Steven Wiley⁴ and Douglas A. Lauffenburger¹^,2^,3

¹ Department of Chemical Engineering, Massachusetts Institute of Technology, Cambridge, MA 02139
² Division of Bioengineering and Environmental Health, Massachusetts Institute of Technology, Cambridge, MA 02139
³ Center for Cancer Research, Massachusetts Institute of Technology, Cambridge, MA 02139
⁴ Fundamental Sciences Division, Pacific Northwest National Laboratory, Richland, WA 99352

Address correspondence to Douglas Lauffenburger, Center for Cancer Research, 56-341 Massachusetts Institute of Technology, Cambridge, MA 02139. Tel.: (617) 252-1629. Fax: (617) 258-0204. E-mail: lauffen{at}mit.edu

Cell responses to soluble regulatory factors may be stronglyinfluenced by the mode of presentation of the factor, as inmatrix-bound versus diffusible modes. The possibly diverse effectof presenting a growth factor in autocrine as opposed to exogenous(or paracrine) mode is an especially important issue in cellbiology. We demonstrate here that migration behavior of humanmammary epithelial cells in response to stimulation by epidermalgrowth factor (EGF) is qualitatively different for EGF presentedin exogenous (paracrine), autocrine, and intracrine modes. WhenEGF is added as an exogenous factor to the medium of cells thatexpress EGF receptor (EGFR) but not EGF, cell migration speedincreases while directional persistence decreases. When theseEGFR-expressing cells are made to also express via retroviraltransfection EGF in protease-cleaveable transmembrane form onthe plasma membrane, migration speed similarly increases, butdirectional persistence increases as well. Addition of exogenousEGF to these cells abrogates their enhanced directional persistence,reducing their directionality to a level similar to wild-typecells. If the EGFR-expressing cells are instead transduced witha gene encoding EGF in a soluble form, migration speed and directionalpersistence were unaffected. Thus, autocrine presentation ofEGF at the plasma membrane in a protease-cleavable form providesthese cells with an enhanced ability to migrate persistentlyin a given direction, consistent with their increased capabilityfor organizing into gland-like structures. In contrast, an exogenous/paracrinemode of EGF presentation generates a "scattering" response bythe cells. These findings emphasize the functional importanceof spatial restriction of EGFR signaling, and suggest criticalimplications for growth factor–based therapeutic treatments.

Key Words: cell motility; tissue engineering; tumor invasiveness; signaling localization; cell scattering

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