Increased filamin binding to β-integrin cytoplasmic domains inhibits cell migration
Author: ["David A. Calderwood","Anna Huttenlocher","William B. Kiosses","David M. Rose","Darren G. Woodside","Martin A. Schwartz","Mark H. Ginsberg"]
Publication: Nature Cell Biology
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Abstract
Multicellular animal development depends on integrins. These adhesion receptors link to the actin cytoskeleton, transmitting biochemical signals and force during cell migration and interactions with the extracellular matrix. Many integrin–cytoskeleton connections are formed by filamins and talin. The β7 integrin tail binds strongly to filamin and supports less migration, fibronectin matrix assembly and focal adhesion formation than either the β1D tail, which binds strongly to talin, or the β1A tail, which binds modestly to both filamin and talin. To probe the role of filamin binding, we mapped the filamin-binding site of integrin tails and identified amino acid substitutions that led to selective loss of filamin binding to the β7 tail and gain of filamin binding to the β1A tail. These changes affected cell migration and membrane protrusions but not fibronectin matrix assembly or focal adhesion formation. Thus, tight filamin binding restricts integrin-dependent cell migration by inhibiting transient membrane protrusion and cell polarization.
Cite this article
Calderwood, D., Huttenlocher, A., Kiosses, W. et al. Increased filamin binding to β-integrin cytoplasmic domains inhibits cell migration. Nat Cell Biol 3, 1060–1068 (2001). https://doi.org/10.1038/ncb1201-1060
