Abstract
Keratin intermediate filaments (KIFs) form cytoskeletal KIF networks that are essential for the structural integrity of epithelial cells. However, the mechanical properties of the in situ network have not been defined. Particle-tracking microrheology (PTM) was used to obtain the micromechanical properties of the KIF network in alveolar epithelial cells (AECs), independent of other cytoskeletal components, such as microtubules and microfilaments. The storage modulus (G') at 1 Hz of the KIF network decreases from the perinuclear region (335 dyn/cm(2)) to the cell periphery (95 dyn/cm(2)), yielding a mean value of 210 dyn/cm(2). These changes in G' are inversely proportional to the mesh size of the network, which increases approximately 10-fold from the perinuclear region (0.02 microm(2)) to the cell periphery (0.3 microm(2)). Shear stress (15 dyn/cm(2) for 4 h) applied across the surface of AECs induces a more uniform distribution of KIF, with the mesh size of the network ranging from 0.02 microm(2) near the nucleus to only 0.04 microm(2) at the cell periphery. This amounts to a 40% increase in the mean G'. The storage modulus of the KIF network in the perinuclear region accurately predicts the shear-induced deflection of the cell nucleus to be 0.87 +/- 0.03 microm. The high storage modulus of the KIF network, coupled with its solid-like rheological behavior, supports the role of KIF as an intracellular structural scaffold that helps epithelial cells to withstand external mechanical forces.
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