Profilin promotes lamellipodium protrusion by tuning the antagonistic activities of CP and VASP

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Item Type:	Preprint
Title:	Profilin promotes lamellipodium protrusion by tuning the antagonistic activities of CP and VASP
Creators Name:	Tang, Y., Schaks, M., Mietkowska, M., Scholz, J., Benavente-Naranjo, R., Korber, S., Li, Z., Lambert, C., Stradal, T.E.B., Karlsson, R., Bieling, P., Faix, J., Falcke, M. and Rottner, K.
Abstract:	Cell migration on rigid surfaces employs flat protrusions termed lamellipodia, which constitute the prime model system for branched actin filament networks that generate pushing forces for membrane movement. Branched actin filaments are nucleated by the Arp2/3 complex and play vital roles in various cell biological processes, such as organelle trafficking, phagocytosis and autophagy. Here we utilize genome editing to explore the functional connections between the actin monomer-binding protein profilin (Pfn), the filament nucleating Arp2/3 complex, its co-factor heterodimeric capping protein (CP) and the Ena/VASP family of actin filament polymerases in lamellipodial actin assembly. Individual and combinations of knockouts show that Pfn counters Ena/VASP but promotes Arp2/3 complex activity, while Ena/VASP and CP mutually antagonize each other. Notably, while Pfn is important for Arp2/3 complex activity irrespective of Ena/VASP, sensitivity of CP to Pfn removal is lost in the absence of Ena/VASP. Our findings establish Pfn as master regulator of Arp2/3 complex-dependent actin network formation, which differentially regulates VASP and its antagonizer CP. Finally, mathematical modeling of our data suggest that Ena/VASP and CP compete for binding at the lamellipodial edge, likely contributing to their functional antagonism at this subcellular site. This work provides critical insights into the molecular logic of branched actin network assembly in membrane protrusion and cellular force generation.
Keywords:	Migration, Protrusion, Arp2/3-Complex, Formin, Lamellipodium, Filopodium, Capping Protein, WAVE Regulatory Complex, Lamellipodin, Modeling
Source:	bioRxiv
Publisher:	Cold Spring Harbor Laboratory Press
Article Number:	2025.03.26.645585
Date:	27 March 2025
Official Publication:	https://doi.org/10.1101/2025.03.26.645585

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