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PPP2R1A regulates migration persistence through the NHSL1-containing WAVE Shell Complex.

Nature communications (2023-06-16)
Yanan Wang, Giovanni Chiappetta, Raphaël Guérois, Yijun Liu, Stéphane Romero, Daniel J Boesch, Matthias Krause, Claire A Dessalles, Avin Babataheri, Abdul I Barakat, Baoyu Chen, Joelle Vinh, Anna Polesskaya, Alexis M Gautreau
RESUMEN

The RAC1-WAVE-Arp2/3 signaling pathway generates branched actin networks that power lamellipodium protrusion of migrating cells. Feedback is thought to control protrusion lifetime and migration persistence, but its molecular circuitry remains elusive. Here, we identify PPP2R1A by proteomics as a protein differentially associated with the WAVE complex subunit ABI1 when RAC1 is activated and downstream generation of branched actin is blocked. PPP2R1A is found to associate at the lamellipodial edge with an alternative form of WAVE complex, the WAVE Shell Complex, that contains NHSL1 instead of the Arp2/3 activating subunit WAVE, as in the canonical WAVE Regulatory Complex. PPP2R1A is required for persistence in random and directed migration assays and for RAC1-dependent actin polymerization in cell extracts. PPP2R1A requirement is abolished by NHSL1 depletion. PPP2R1A mutations found in tumors impair WAVE Shell Complex binding and migration regulation, suggesting that the coupling of PPP2R1A to the WAVE Shell Complex is essential to its function.

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Roche
Anti-GFP, from mouse IgG1κ (clones 7.1 and 13.1)
Millipore
Anti-HA−agarosa monoclonal antibody produced in mouse, clone HA-7, purified immunoglobulin, PBS suspension
Sigma-Aldrich
Anti-phospho-WAVE2 (Ser308) Antibody
Sigma-Aldrich
Anti-NHSL1 antibody produced in rabbit, Prestige Antibodies® Powered by Atlas Antibodies, affinity isolated antibody, buffered aqueous glycerol solution