Extracellular Signalling Modulates Scar/WAVE Complex Activity through Abi Phosphorylation.

Shashi Prakash Singh,Robert H. Insall,Peter A. Thomason

doi:10.3390/cells10123485

Shashi Prakash Singh, Robert H. Insall + Show 1 more

Open Access

https://doi.org/10.3390/cells10123485

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Abstract

The lamellipodia and pseudopodia of migrating cells are produced and maintained by the Scar/WAVE complex. Thus, actin-based cell migration is largely controlled through regulation of Scar/WAVE. Here, we report that the Abi subunit—but not Scar—is phosphorylated in response to extracellular signalling in Dictyostelium cells. Like Scar, Abi is phosphorylated after the complex has been activated, implying that Abi phosphorylation modulates pseudopodia, rather than causing new ones to be made. Consistent with this, Scar complex mutants that cannot bind Rac are also not phosphorylated. Several environmental cues also affect Abi phosphorylation—cell-substrate adhesion promotes it and increased extracellular osmolarity diminishes it. Both unphosphorylatable and phosphomimetic Abi efficiently rescue the chemotaxis of Abi KO cells and pseudopodia formation, confirming that Abi phosphorylation is not required for activation or inactivation of the Scar/WAVE complex. However, pseudopodia and Scar patches in the cells with unphosphorylatable Abi protrude for longer, altering pseudopod dynamics and cell speed. Dictyostelium, in which Scar and Abi are both unphosphorylatable, can still form pseudopods, but migrate substantially faster. We conclude that extracellular signals and environmental responses modulate cell migration by tuning the behaviour of the Scar/WAVE complex after it has been activated.

Highlights

In migrating cells, the Scar/WAVE complex acts as a principal catalyst to generate actin-rich protrusions
ScarS8D /AbiS3D patches were brief (8.7 ± 3.4 s, mean ± SD, n = 141) and highly oscillatory. These results suggest that neither Scar nor Abi phosphorylation is required for the Scar/WAVE complex activation
In both Scar/WAVE and Abi, the polyproline domains are very variable; their existence is conserved between species, but their sequence is not

Summary

Introduction

The Scar/WAVE complex acts as a principal catalyst to generate actin-rich protrusions. Lamellipods or pseudopods are generated by activation of the Arp2/3 complex controlled by the Scar/WAVE complex, leading to polymerization and growth of actin filaments [1]. The five-membered complex consists of Pir121, Nap, Scar/WAVE, Abi and HSPC300 subunits [2]. It is regulated by the small GTPase Rac. Rac does not interact with the complex when GDP-bound. When GTP-bound it interacts with the Pir121 subunit, making the Scar/WAVE complex active and able to promote actin polymerization [3,4]. Multiple other regulators affect the Scar/WAVE complex’s activity [1]

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