SPIN90 modulates the architecture of lamellipodial actin in an ARPC5L dependent fashion

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Abstract

When stimulated by nucleation-promoting factors such as WAVE, the Arp2/3 complex generates branched actin networks. In contrast, when activated by SPIN90, the Arp2/3 complex generates linear actin filaments. The Arp2/3 complex in mammals, consists of 8 iso-complexes with dieerent properties as there are two isoforms of Arp3, ArpC1 and ArpC5. Here, using recombinant Arp2/3 iso-complexes with defined compositions, we show that SPIN90 selectively activates ArpC5L- rather than ArpC5- containing complexes to generate linear actin filaments. Consistent with this, SPIN90 at the leading edge of migrating cells enhances the recruitment of ArpC5L-, but not ArpC5- containing, Arp2/3 complexes to lamellipodia. These SPIN90-Arp2/3-ArpC5L complexes generate linear actin filaments that integrate into lamellipodia and impact protrusion eeiciency. Moreover, using polarised light microscopy, we show that loss of SPIN90 leads to an enrichment in actin filaments oriented more perpendicular to the plasma membrane. Our results demonstrate that SPIN90 regulates the architecture and dynamics of lamellipodial actin in an Arp2/3 iso-complex dependent fashion. Summary SPIN90 selectively recruits and activates ArpC5L containing Arp2/3 to shape the architecture and dynamics of lamellipodial actin.
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Abstract When stimulated by nucleation-promoting factors such as WAVE, the Arp2/3 complex generates branched actin networks. In contrast, when activated by SPIN90, the Arp2/3 complex generates linear actin filaments. The Arp2/3 complex in mammals, consists of 8 iso-complexes with dieerent properties as there are two isoforms of Arp3, ArpC1 and ArpC5. Here, using recombinant Arp2/3 iso-complexes with defined compositions, we show that SPIN90 selectively activates ArpC5L- rather than ArpC5- containing complexes to generate linear actin filaments. Consistent with this, SPIN90 at the leading edge of migrating cells enhances the recruitment of ArpC5L-, but not ArpC5- containing, Arp2/3 complexes to lamellipodia. These SPIN90-Arp2/3-ArpC5L complexes generate linear actin filaments that integrate into lamellipodia and impact protrusion eeiciency. Moreover, using polarised light microscopy, we show that loss of SPIN90 leads to an enrichment in actin filaments oriented more perpendicular to the plasma membrane. Our results demonstrate that SPIN90 regulates the architecture and dynamics of lamellipodial actin in an Arp2/3 iso-complex dependent fashion. Summary SPIN90 selectively recruits and activates ArpC5L containing Arp2/3 to shape the architecture and dynamics of lamellipodial actin. Competing Interest Statement The authors have declared no competing interest. Footnotes Add Eton data has been added and the text has been modified accordingly

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License: CC-BY-4.0