by Keyword: Cytoskeletal organization
Estevez, M., Fernandez-Ulibarri, I., Martinez, E., Egea, G., Samitier, J., (2010). Changes in the internal organization of the cell by microstructured substrates Soft Matter 6, (3), 582-590
Surface features at the micro and nanometre scale have been shown to influence and even determine cell behaviour and cytoskeleton organization through direct mechanotransductive pathways. Much less is known about the function and internal distribution of organelles of cells grown on topographically modified surfaces. In this study, the nanoimprint lithography technique was used to manufacture poly(methyl methacrylate) (PMMA) sheets with a variety of features in the micrometre size range. Normal rat kidney (NRK) fibroblasts were cultured on these substrates and immunofluorescence staining assays were performed to visualize cell adhesion, the organization of the cytoskeleton and the morphology and subcellular positioning of the Golgi complex. The results show that different topographic features at the micrometric scale induce different rearrangements of the cell cytoskeleton, which in turn alter the positioning and morphology of the Golgi complex. Microposts and microholes alter the mechanical stability of the Golgi complex by modifying the actin cytoskeleton organization leading to the compaction of the organelle. These findings prove that physically modified surfaces are a valuable tool with which to study the dynamics of cell cytoskeleton organization and its subsequent repercussion on internal cell organization and associated function.
JTD Keywords: Actin stress fibers, Golgi-complex, Focal adhesions, Cytoskeletal organization, Osteoblast adhesion, Mammalian-cells, Micron-scale, Nanoscale, Dynamics, Rho