Dissecting the Mechanical Control of Mitotic Entry Using a Cell Confinement Setup
Publication date
2024-03-20
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Abstract
Proliferating cells need to cope with extensive cytoskeletal and nuclear remodeling as they prepare to divide. These events are tightly regulated by the nuclear translocation of the cyclin B1-CDK1 complex, that is partly dependent on nuclear tension. Standard experimental approaches do not allow the manipulation of forces acting on cells in a time-resolved manner. Here, we describe a protocol that enables dynamic mechanical manipulation of single cells with high spatial and temporal resolution and its application in the context of cell division. In addition, we also outline a method for the manipulation of substrate stiffness using polyacrylamide hydrogels. Finally, we describe a static cell confinement setup, which can be used to study the impact of prolonged mechanical stimulation in populations of cells.
Keywords
Cell confinement, Cyclin B1, G2-M transition, Hydrogels, Live-cell microscopy, Mechanical forces, Mitotic entry, Nucleus, General Neuroscience, General Biochemistry,Genetics and Molecular Biology, General Immunology and Microbiology, Plant Science
Citation
Dantas, M, Vareiro, D & Ferreira, J G 2024, 'Dissecting the Mechanical Control of Mitotic Entry Using a Cell Confinement Setup', Bio-protocol, vol. 14, no. 6, e4959. https://doi.org/10.21769/BioProtoc.4959