Mechanical coupling of cytoskeletal elasticity and force generation is crucial for understanding the migrating nature of keloid fibroblasts
- PMID: 25877039
- DOI: 10.1111/exd.12731
Mechanical coupling of cytoskeletal elasticity and force generation is crucial for understanding the migrating nature of keloid fibroblasts
Abstract
One of the key features of keloid is its fibroblasts migrating beyond the original wound border. During migration, cells not only undergo molecular changes but also mechanical modulation. This process is led by actin filaments serving as the backbone of intra-cellular force and transduces external mechanical signal via focal adhesion complex into the cell. Here, we focus on determining the mechanical changes of actin filaments and the spatial distribution of forces in response to changing chemical stimulations and during cell migration. Atomic force microscopy and micropost array detector are used to determine and compare the magnitude and distribution of filament elasticity and force generation in fibroblasts and keloid fibroblasts. We found both filament elasticity and force generation show spatial distribution in a polarized and migrating cell. Such spatial distribution is disrupted when mechano-signalling is perturbed by focal adhesion kinase inhibitor and in keloid fibroblasts. The demonstration of keloid pathology at the nanoscale highlights the coupling of cytoskeletal function with physical characters at the subcellular level and provides new research directions for migration-related disease such as keloid.
Keywords: actin; atomic force microscopy; force; keloid; migration.
© 2015 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.
Comment in
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Force generation and transmission in keloid fibroblasts: dissecting the role of mechanosensitive molecules in cell function.Exp Dermatol. 2015 Aug;24(8):574-5. doi: 10.1111/exd.12753. Exp Dermatol. 2015. PMID: 25959359 No abstract available.
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