Growth Factor-dependent Activation of alpha vbeta 3 Integrin in Normal Epithelial Cells: Implications for Tumor Invasion
Trusolino ; L. ; - ASI Sponsor
Aug - 1998
ISSN : 00219525 ;
journal : The Journal of Cell Biology
Issue : 4
type: Article Journal
Abstract
Integrin activation is a multifaceted phenomenon leading to increased affinity and avidity for matrix ligands. To investigate whether cytokines produced during stromal infiltration of carcinoma cells activate nonfunctional epithelial integrins, a cellular system of human thyroid clones derived from normal glands (HTU-5) and papillary carcinomas (HTU-34) was employed. In HTU-5 cells, \alpha\v\beta\3 integrin was diffused all over the membrane, disconnected from the cytoskeleton, and unable to mediate adhesion. Conversely, in HTU-34 cells, \alpha\v\beta\3 was clustered at focal contacts (FCs) and mediated firm attachment and spreading. \alpha\v\beta\3 recruitment at FCs and ligand-binding activity, essentially identical to those of HTU-34, occurred in HTU-5 cells upon treatment with hepatocyte growth factor/scatter factor (HGF/SF). The HTU-34 clone secreted HGF/SF and its receptor was constitutively tyrosine phosphorylated suggesting an autocrine loop responsible for \alpha\v\beta\3 activated state. Antibody-mediated inhibition of HGF/SF function in HTU-34 cells disrupted \alpha\v\beta\3 enrichment at FCs and impaired adhesion. Accordingly, activation of \alpha\v\beta\3 in normal cells was produced by HTU-34 conditioned medium on the basis of its content of HGF/SF. These results provide the first example of a growth factor-driven integrin activation mechanism in normal epithelial cells and uncover the importance of cytokine-based autocrine loops for the physiological control of integrin activation.
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