Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
10905202 | Experimental Cell Research | 2005 | 11 Pages |
Abstract
Acquisition of motility is an important step in malignant progression of tumor cells and involves dynamic changes in actin filament architecture orchestrated by many actin binding proteins. A role for the actin-binding protein gelsolin has been demonstrated in fibroblast motility. In this report, we investigated the role of gelsolin in bronchial epithelial cell motility. The non-tumorigenic bronchial epithelial cell line, NL20 migrated towards EGF in a modified Boyden chamber cell motility assay. However, the tumorigenic NL20-TA cell line derived from the NL20 cells and lacking gelsolin, did not migrate towards EGF. Ectopic expression of gelsolin in NL20-TA cells restored the EGF response, while motility of NL20-TA derived cells towards serum, PDGF, and fibronectin was independent of gelsolin expression. PI3-kinase inhibition failed to block EGF-stimulated motility in gelsolin transfected NL20-TA cells. Furthermore, EGF stimulated a motility response in cells lacking gelsolin in the presence of fibronectin or fibrinogen that was blocked with PI3-kinase inhibition. Thus, EGF-stimulated motility in NL20 cells and its derivatives are gelsolin dependent and PI3-kinase independent, while fibronectin and fibrinogen enhances EGF-stimulated motility through a pathway independent of gelsolin and dependent upon PI3-kinase.
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Authors
Alan S. Lader, Justin J. Lee, Gregor Cicchetti, David J. Kwiatkowski,