Literature DB >> 30250061

Fam49/CYRI interacts with Rac1 and locally suppresses protrusions.

Loic Fort1,2, José Miguel Batista1,2, Peter A Thomason1, Heather J Spence1, Jamie A Whitelaw1, Luke Tweedy1, Jennifer Greaves3, Kirsty J Martin1, Kurt I Anderson1,4, Peter Brown1, Sergio Lilla1, Matthew P Neilson1, Petra Tafelmeyer5, Sara Zanivan1, Shehab Ismail1,2, David M Bryant1,2, Nicholas C O Tomkinson6, Luke H Chamberlain3, Grant S Mastick7, Robert H Insall8,9, Laura M Machesky10,11.   

Abstract

Actin-based protrusions are reinforced through positive feedback, but it is unclear what restricts their size, or limits positive signals when they retract or split. We identify an evolutionarily conserved regulator of actin-based protrusion: CYRI (CYFIP-related Rac interactor) also known as Fam49 (family of unknown function 49). CYRI binds activated Rac1 via a domain of unknown function (DUF1394) shared with CYFIP, defining DUF1394 as a Rac1-binding module. CYRI-depleted cells have broad lamellipodia enriched in Scar/WAVE, but reduced protrusion-retraction dynamics. Pseudopods induced by optogenetic Rac1 activation in CYRI-depleted cells are larger and longer lived. Conversely, CYRI overexpression suppresses recruitment of active Scar/WAVE to the cell edge, resulting in short-lived, unproductive protrusions. CYRI thus focuses protrusion signals and regulates pseudopod complexity by inhibiting Scar/WAVE-induced actin polymerization. It thus behaves like a 'local inhibitor' as predicted in widely accepted mathematical models, but not previously identified in cells. CYRI therefore regulates chemotaxis, cell migration and epithelial polarization by controlling the polarity and plasticity of protrusions.

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Year:  2018        PMID: 30250061      PMCID: PMC6863750          DOI: 10.1038/s41556-018-0198-9

Source DB:  PubMed          Journal:  Nat Cell Biol        ISSN: 1465-7392            Impact factor:   28.824


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