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Insight from the maximal activation of the signal transduction excitable network in Dictyostelium discoideum.


ABSTRACT: Cell migration requires the coordination of an excitable signal transduction network involving Ras and PI3K pathways with cytoskeletal activity. We show that expressing activated Ras GTPase-family proteins in cells lacking PTEN or other mutations which increase cellular protrusiveness transforms cells into a persistently activated state. Leading- and trailing-edge markers were found exclusively at the cell perimeter and the cytosol, respectively, of the dramatically flattened cells. In addition, the lifetimes of dynamic actin puncta were increased where they overlapped with actin waves, suggesting a mechanism for the coupling between these two networks. All of these phenotypes could be reversed by inhibiting signal transduction. Strikingly, maintaining cells in this state of constant activation led to a form of cell death by catastrophic fragmentation. These findings provide insight into the feedback loops that control excitability of the signal transduction network, which drives migration.

SUBMITTER: Edwards M 

PROVIDER: S-EPMC5910810 | biostudies-other | 2018 Apr

REPOSITORIES: biostudies-other

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Insight from the maximal activation of the signal transduction excitable network in <i>Dictyostelium discoideum</i>.

Edwards Marc M   Cai Huaqing H   Abubaker-Sharif Bedri B   Long Yu Y   Lampert Thomas J TJ   Devreotes Peter N PN  

Proceedings of the National Academy of Sciences of the United States of America 20180330 16


Cell migration requires the coordination of an excitable signal transduction network involving Ras and PI3K pathways with cytoskeletal activity. We show that expressing activated Ras GTPase-family proteins in cells lacking PTEN or other mutations which increase cellular protrusiveness transforms cells into a persistently activated state. Leading- and trailing-edge markers were found exclusively at the cell perimeter and the cytosol, respectively, of the dramatically flattened cells. In addition,  ...[more]

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