Title of article
Divalent Cations Crosslink Vimentin Intermediate Filament Tail Domains to Regulate Network Mechanics
Author/Authors
Yi-Chia Lin، نويسنده , , Chase P. Broedersz، نويسنده , , Amy C. Rowat، نويسنده , , Tatjana Wedig، نويسنده , , Harald Herrmann، نويسنده , , Frederick C. MacKintosh، نويسنده , , David A. Weitz، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2010
Pages
8
From page
637
To page
644
Abstract
Intermediate filament networks in the cytoplasm and nucleus are critical for the mechanical integrity of metazoan cells. However, the mechanism of crosslinking in these networks and the origins of their mechanical properties are not understood. Here, we study the elastic behavior of in vitro networks of the intermediate filament protein vimentin. Rheological experiments reveal that vimentin networks stiffen with increasing concentrations of Ca2+ and Mg2+, showing that divalent cations act as crosslinkers. We quantitatively describe the elastic response of vimentin networks over five decades of applied stress using a theory that treats the divalent cations as crosslinkers: at low stress, the behavior is entropic in origin, and increasing stress pulls out thermal fluctuations from single filaments, giving rise to a nonlinear response; at high stress, enthalpic stretching of individual filaments significantly modifies the nonlinearity. We investigate the elastic properties of networks formed by a series of protein variants with stepwise tail truncations and find that the last 11 amino acids of the C-terminal tail domain mediate crosslinking by divalent ions. We determined the single-filament persistence length, lP ≈ 0.5 μm, and Youngʹs modulus, Y ≈ 9 MPa; both are consistent with literature values. Our results provide insight into a crosslinking mechanism for vimentin networks and suggest that divalent ions may help regulate the cytoskeletal structure and mechanical properties of cells.
Keywords
Cell mechanics , Cytoskeleton , rheology
Journal title
Journal of Molecular Biology
Serial Year
2010
Journal title
Journal of Molecular Biology
Record number
1251814
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