The dynamic remodeling of the cytoskeletal network of vimentin intermediate filaments network supports various cellular functions, including cell morphology, elasticity, migration, organelle localization, and resistance against mechanical or pathological stress. Currently available chemicals targeting vimentin predominantly induce network reorganization and shrinkage around the nucleus. Effective tools for long-term manipulation of vimentin network dispersion in living cells are still lacking, limiting in-depth studies on vimentin function and potential therapeutic applications. Here, we verified that a commercially available small molecule, Trametinib, is capable of inducing spatial spreading of the cellular vimentin network without affecting its transcriptional or translational regulation. Further evidence confirmed its low cytotoxicity and similar effects on different cell types. Importantly, Trametinib has no impact on the other two cytoskeletal systems, actin filaments and the microtubule network. Moreover, Trametinib regulates vimentin network dispersion rapidly and efficiently, with effects persisting for up to 48 h after drug withdrawal. We also ruled out the possibility that Trametinib directly affects the phosphorylation level of vimentin. In summary, we identified an unprecedented regulator, Trametinib, capable of spreading the vimentin network toward the cell periphery, and thus complemented the existing repertoire of vimentin remodeling drugs in the field of cytoskeletal research.
Keywords: cytoskeleton; intermediate filaments; network reorganization; small molecule; vimentin.
© The Author(s) 2024. Published by Oxford University Press on behalf of Institute of Biochemistry and Cell Biology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences.