Issue 37, 2013

Mechanics of intermediate filament networks assembled from keratins K8 and K18

Abstract

We have investigated intermediate filament networks assembled from the recombinant keratins K8 and K18 in vitro at various protein and MgCl2 concentrations using mechanical rheometry. Experimental parameters were chosen such that artifacts from sample surface elasticity or wall slip were avoided, and the gap width did not affect network formation. The modulus G0 depends weakly on the protein concentration (G0c0.5) and the critical deformation γcrit at which non-linear response sets in is concentration independent. These findings can be rationalized assuming that the cross-link density decreases with decreasing protein concentration, while the filament contour length between cross-links remains unchanged. Thus, filaments are more stretched at lower protein concentrations and this increase in conformational energy partly compensates the free energy decrease related to the change in cross-link density. G0 is independent of the MgCl2 concentration indicating that the contribution of stretched filaments decreases when the cross-link density increases. Networks rupture when a critical strain is exceeded, but fully recover within 30 minutes. The non-linear network response is characterized by pronounced strain stiffening with increasing shear stress σ. Reduced differential modulus K′ data obtained at different protein or MgCl2 concentrations collapse onto a master curve. Two scaling regimes K′ ∼ σα are observed with α = 1 at intermediate and α = 0.6 at high stresses. These exponents may be rationalized in terms of the glassy wormlike chain model assuming sticky contacts with finite, constant bond strength. Two distinct scaling regimes could also result from the existence of two types of filament contacts with different bond energies or by the compliance of individual filaments.

Graphical abstract: Mechanics of intermediate filament networks assembled from keratins K8 and K18

Supplementary files

Article information

Article type
Paper
Submitted
23 Jul 2013
Accepted
26 Jul 2013
First published
29 Jul 2013

Soft Matter, 2013,9, 8871-8880

Mechanics of intermediate filament networks assembled from keratins K8 and K18

P. Pawelzyk, H. Herrmann and N. Willenbacher, Soft Matter, 2013, 9, 8871 DOI: 10.1039/C3SM51999F

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