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Merging of ventral fibers at adhesions drives the remodeling of cellular contractile systems in fibroblasts.

Cytoskeleton (Hoboken, N.J.) (2022-08-24)
Shwetha Narasimhan, William R Holmes, Irina Kaverina
RÉSUMÉ

Ventral stress fibers (VSFs) are contractile actin fibers dynamically attached to cell-matrix focal adhesions. VSFs are critical in cellular traction force production and migration. VSFs vary from randomly oriented short, thinner fibers to long, thick fibers that span along the whole long axis of a cell. De novo VSF formation was shown to occur by cortical actin mesh condensation or by crosslinking of dorsal stress fibers and transverse arcs at the cell front. However, the formation of long VSFs that extend across the whole cell axis is not well understood. Here, we report a novel phenomenon of VSF merging in migratory fibroblast cells, which is guided by mechanical force balance and contributes to VSF alignment along the long cell axis. The mechanism of VSF merging involves two steps: connection of two ventral fibers by an emerging myosin II bridge at an intervening adhesion and intervening adhesion dissolution. Our data indicate that these two steps are interdependent: slow adhesion disassembly leads to the slowing of the myosin bridge formation. Cellular data and computational modeling show that the contact angle between merging fibers decides successful merging, with shallow angles leading to merge failure. Our data and modeling further show that merging increases the share of uniformly aligned long VSFs, likely contributing to directional traction force production. Thus, we characterize merging as a process for dynamic reorganization of VSFs with functional significance for directional cell migration.

MATÉRIAUX
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Description du produit

Sigma-Aldrich
Fibronectine plasmatique humaine, protéine purifiée, from human plasma, liquid, 1 mg/mL (100 MG pack size is lyophilized), purified protein, suitable for cell culture
Sigma-Aldrich
PF-573228, ≥95% (HPLC)