CYRI-A regulates macropinocytic cup maturation and mediates integrin uptake, limiting invasive migration

The Scar/WAVE complex is the major driver of actin nucleation at the plasma membrane, resulting in lamellipodia and membrane ruffles. While lamellipodia aid migration, membrane ruffles can generate macropinosomes - cup-like structures - important for nutrient uptake and regulation of cell surface receptor levels. How macropinosomes are formed and the role of the actin machinery in their formation and resolution is still not well understood. Mammalian CYRI-B is a recently described negative regulator of the Scar/WAVE complex by RAC1 sequestration, but its other paralogue, CYRI-A has not been characterised. Here we implicate CYRI-A as a key regulator of macropinocytosis maturation and integrin internalisation from the cell surface. We find that CYRI-A is recruited to nascent macropinosomes in a transient but distinct burst, downstream of PIP3-mediated RAC1 activation to regulate actin polymerisation. CYRI-A precedes RAB5A recruitment to engulfed macropinocytic cups and departs as RAB5A is recruited, consistent with a role for CYRI-A as a local suppressor of actin dynamics, enabling the resolution of the macropinocytic cup. The suppression of integrin 5{beta}1 uptake caused by the co-depletion of CYRI-A and B in Ewings sarcoma cells, leads to an enhancement of surface integrin levels and enhanced invasion and anchorage-independent growth in 3D. Thus CYRI-A is a dynamic regulator of integrin uptake via macropinocytosis, functioning together with CYRI-B to regulate integrin homeostasis on the cell surface.