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Stop or Go: How a Cell Maintains its Fine Motility Balance

Stop or Go: How a Cell Maintains its Fine Motility Balance

Stop or Go: How a Cell Maintains its Fine Motility Balance

Stop or Go: How a Cell Maintains its Fine Motility Balance

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In a healthy cell, there is a fine balance between the protrusive structures that make the cell more migratory and the contractile structures that maintain the cell’s shape and its association with the environment. A disturbance in this balance leads to several diseases, such as invasive cancers.

The most important component of both protrusive and contractile machineries is a protein called actin. This means that the proper distribution of actin between these structures is essential for the normal function of the cell. Nevertheless, the mechanisms that ensure that actin is distributed correctly between the protrusive and contractile machineries have remained elusive.

Researchers at the University of Helsinki, Finland, and the University of Pennsylvania, Philadelphia, USA, have now identified a protein called tropomodulin as a key player that maintains the balance between the protrusive and contractile actin-filament machineries within a cell.

The function of tropomodulin has previously been studied mainly in the context of muscles, where it maintains the architecture of actin filaments within the contractile fibers of muscle cells.

"We have now revealed that tropomodulins stabilize the actin filaments of the contractile structures in non-muscle cells through interacting with specific proteins within these actin filament bundles. The depletion of tropomodulins led to a loss of contractile structures, accompanied by an excess of protrusive structures, and thus to severe problems in a cell’s shape and force production," says Academy Professor Pekka Lappalainen from the HiLiFE – Institute of Biotechnology, University of Helsinki.

Researchers were surprised to see that the depletion of one protein can have such drastic effects on the balance of the actin machinery.

“Another exciting and unexpected finding of this study was the notion that the same protein can have a different function depending on the tissue or cell type. Our study also sheds light on why abnormal levels of tropomodulin are linked to the progression of various cancers,” says PhD student Reena Kumari.


Kumari et al. (2020) Tropomodulins Control the Balance between Protrusive and Contractile Structures by Stabilizing Actin-Tropomyosin Filaments. Current Biology. DOI: https://doi.org/10.1016/j.cub.2019.12.049

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