CYRI (FAM49) proteins are local inhibitors of Scar/WAVE induced lamellipodia that bind directly to active Rac1

Actin-based protrusions driving cell migration are reinforced through positive feedback, but it is unclear how the cell restricts the eventual size of a protrusion or limits positive signals to cause splitting or retraction. We have identified an evolutionarily conserved regulator of the protrusion machinery, which we name CYRI- CYFIP-related Rac interacting protein. CYRI shows sequence similarity to the Scar/WAVE complex member CYFIP in a Domain of Unknown Function, DUF1394. CYRI binds specifically to activated Rac1 via a common motif shared with CYFIP, establishing DUF1394 as a new Rac1 binding domain. CYRI-depleted cells have broad, Scar/WAVE-enriched lamellipodia and enhanced Rac1 signaling. Conversely, CYRI overexpression suppresses spreading and dramatically sharpens protrusions into unproductive needles. CYRI proteins use dynamic inhibition of Scar/WAVE induced actin to focus positive protrusion signals and regulate pseudopod complexity. CYRI behaves like a local inhibitor predicted and described in widely accepted mathematical models, but not previously identified in living cells.