Required role of focal adhesion kinase (FAK) for integrin-stimulated cell migration

DJ Sieg, CR Hauck, DD Schlaepfer - Journal of cell science, 1999 - journals.biologists.com
DJ Sieg, CR Hauck, DD Schlaepfer
Journal of cell science, 1999journals.biologists.com
ABSTRACT FAK localizes to sites of transmembrane integrin receptor clustering and
facilitates intracellular signaling events. FAK-null (FAK−) fibroblasts exhibit a rounded
morphology, defects in cell migration, and an elevated number of cell-substratum contact
sites. Here we show that stable re-expression of epitope-tagged FAK reversed the
morphological defects of the FAK− cells through the dynamic regulation of actin structures
and focal contact sites in fibronectin (FN) stimulated cells. FAK re-expressing fibroblasts …
Abstract
FAK localizes to sites of transmembrane integrin receptor clustering and facilitates intracellular signaling events. FAK-null (FAK) fibroblasts exhibit a rounded morphology, defects in cell migration, and an elevated number of cell-substratum contact sites. Here we show that stable re-expression of epitope-tagged FAK reversed the morphological defects of the FAK cells through the dynamic regulation of actin structures and focal contact sites in fibronectin (FN) stimulated cells. FAK re-expressing fibroblasts (clones DA2 and DP3) exhibit a characteristic fibrillar shape and display indistinguishable FN receptor-stimulated migration properties compared to normal fibroblasts. Expression of various FAK mutants in the FAK cells showed that FAK kinase activity, the Tyr-397/SH2 domain binding site, and the first proline-rich SH3 binding region in the FAK C-terminal domain were individually needed to promote full FAK-mediated FAK cell migration to FN whereas direct paxillin binding to FAK was not required. Expression of the FAK Phe-397 mutant did not promote FAK cell migration and overexpression of p50csk in DA2 cells inhibited migration to FN suggesting that Src-family PTKs play important roles in FAK-mediated motility events. Expression of the FAK C-terminal domain, FRNK, promoted FAK dephosphorylation at Tyr-397 and potently blocked FAK-mediated cell migration. This dominant-negative effect of FRNK was reversed by a point mutation (Leu-1034 to Ser) which prevented FRNK localization to focal contact sites. Our results show that FAK functions as a key regulator of fibronectin receptor stimulated cell migration events through the recruitment of both SH2 and SH3 domain-containing signaling proteins to sites of integrin receptor clustering.
journals.biologists.com