Kazuyoshi Kousaka scite author profile

Cofilin mediates lamellipodium extension and polarized cell migration by stimulating actin filament dynamics at the leading edge of migrating cells. Cofilin is inactivated by phosphorylation at Ser-3 and reactivated by cofilin-phosphatase Slingshot-1L (SSH1L). Little is known of signaling mechanisms of cofilin activation and how this activation is spatially regulated. Here, we show that cofilin-phosphatase activity of SSH1L increases ∼10-fold by association with actin filaments, which indicates that actin assembly at the leading edge per se triggers local activation of SSH1L and thereby stimulates cofilin-mediated actin turnover in lamellipodia. We also provide evidence that 14-3-3 proteins inhibit SSH1L activity, dependent on the phosphorylation of Ser-937 and Ser-978 of SSH1L. Stimulation of cells with neuregulin-1β induced Ser-978 dephosphorylation, translocation of SSH1L onto F-actin–rich lamellipodia, and cofilin dephosphorylation. These findings suggest that SSH1L is locally activated by translocation to and association with F-actin in lamellipodia in response to neuregulin-1β and 14-3-3 proteins negatively regulate SSH1L activity by sequestering it in the cytoplasm.

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Differential activities, subcellular distribution and tissue expression patterns of three members of Slingshot family phosphatases that dephosphorylate cofilin

Ohta

et al. 2003

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Slingshot‐3 dephosphorylates ADF/cofilin but is dispensable for mouse development

Kousaka

Kanazawa

Oshima

et al. 2008

Genesis

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Actin-depolymerizing factor (ADF) and cofilin constitute a family of key regulators of actin filament dynamics. ADF/cofilin is inactivated by phosphorylation at Ser-3 by LIM-kinases and reactivated by dephosphorylation by Slingshot (SSH) family phosphatases. Defects in LIM kinases or ADF/cofilin have been implicated in morbidity in human or mice; however, the roles of mammalian SSH in vivo have not been addressed. In this study, we examined the endogenous expression of each mouse SSH member in various cell lines and tissues, and showed that SSH-3L protein was strongly expressed in epithelial cells. Our structure-function analysis of SSH-3L suggested the possibility that the C-tail unique to SSH-3L negatively regulates the catalytic activity of this phosphatase. Furthermore we made ssh-3 knockout mice to examine its potential in vivo roles. Unexpectedly, ssh-3 was not essential for viability, fertility, or development of epithelial tissues; and ssh-3 did not genetically modify the corneal disorder of the corn1/ADF/destrin mutant.

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