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Free keywords:
CELL-MATRIX ADHESIONS; ALPHA-V INTEGRINS; FOCAL ADHESIONS; QUANTITATIVE
PROTEOMICS; INTERACTION DATABASE; IN-VIVO; KINASE; ALPHA-V-BETA-3;
MATURATION; MIGRATION
Abstract:
How different integrins that bind to the same type of extracellular matrix protein mediate specific functions is unclear. We report the functional analysis of beta(1)- and alpha(v)-class integrins expressed in pan-integrin-null fibroblasts seeded on fibronectin. Reconstitution with beta(1)-class integrins promotes myosin-II-independent formation of small peripheral adhesions and cell protrusions, whereas expression of alpha(v)-class integrins induces the formation of large focal adhesions. Co-expression of both integrin classes leads to full myosin activation and traction-force development on stiff fibronectin-coated substrates, with alpha(v)-class integrins accumulating in adhesion areas exposed to high traction forces. Quantitative proteomics linked alpha v-class integrins to a GEF-H1-RhoA pathway coupled to the formin mDia1 but not myosin II, and alpha(5)beta(1) integrins to a RhoA-Rock-myosin II pathway. Our study assigns specific functions to distinct fibronectin-binding integrins, demonstrating that alpha(5)beta(1) integrins accomplish force generation, whereas alpha(v)-class integrins mediate the structural adaptations to forces, which cooperatively enable cells to sense the rigidity of fibronectin-based microenvironments.