Focal adhesion size controls tension-dependent recruitment of α-smooth muscle actin to stress fibers

JM Goffin, P Pittet, G Csucs, JW Lussi… - The Journal of cell …, 2006 - rupress.org
JM Goffin, P Pittet, G Csucs, JW Lussi, JJ Meister, B Hinz
The Journal of cell biology, 2006rupress.org
Expression of α-smooth muscle actin (α-SMA) renders fibroblasts highly contractile and
hallmarks myofibroblast differentiation. We identify α-SMA as a mechanosensitive protein
that is recruited to stress fibers under high tension. Generation of this threshold tension
requires the anchoring of stress fibers at sites of 8–30-μm-long “supermature” focal
adhesions (suFAs), which exert a stress approximately fourfold higher (∼ 12 nN/μm2) on
micropatterned deformable substrates than 2–6-μm-long classical FAs. Inhibition of suFA …
Expression of α-smooth muscle actin (α-SMA) renders fibroblasts highly contractile and hallmarks myofibroblast differentiation. We identify α-SMA as a mechanosensitive protein that is recruited to stress fibers under high tension. Generation of this threshold tension requires the anchoring of stress fibers at sites of 8–30-μm-long “supermature” focal adhesions (suFAs), which exert a stress approximately fourfold higher (∼12 nN/μm2) on micropatterned deformable substrates than 2–6-μm-long classical FAs. Inhibition of suFA formation by growing myofibroblasts on substrates with a compliance of ≤11 kPa and on rigid micropatterns of 6-μm-long classical FA islets confines α-SMA to the cytosol. Reincorporation of α-SMA into stress fibers is established by stretching 6-μm-long classical FAs to 8.1-μm-long suFA islets on extendable membranes; the same stretch producing 5.4-μm-long classical FAs from initially 4-μm-long islets is without effect. We propose that the different molecular composition and higher phosphorylation of FAs on supermature islets, compared with FAs on classical islets, accounts for higher stress resistance.
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