Activated I-BAR IRSp53 clustering controls the formation of VASP-actin-based membrane protrusions

Author:

Tsai Feng-Ching,Henderson J. Michael,Jarin Zack,Kremneva Elena,Senju Yosuke,Pernier Julien,Mikhajlov Oleg,Manzi John,Kogan Konstantin,Le Clainche Christophe,Voth Gregory A.,Lappalainen Pekka,Bassereau PatriciaORCID

Abstract

AbstractFilopodia are actin-rich membrane protrusions essential for cell morphogenesis, motility, and cancer invasion. How cells control filopodia initiation on the plasma membrane remains elusive. We performed experiments in cellulo, in vitro and in silico to unravel the mechanism of filopodia initiation driven by the membrane curvature sensor IRSp53. We showed that full-length IRSp53 self-assembles into clusters on membranes depending on PIP2. Using well-controlled in vitro reconstitution systems, we demonstrated that IRSp53 clusters recruit the actin polymerase VASP to assemble actin filaments locally on membranes, leading to the generation of actin-filled membrane protrusions reminiscent of filopodia. By pulling membrane nanotubes from live cells, we observed that IRSp53 can only be enriched and trigger actin assembly in nanotubes at highly dynamic membrane regions. Our work supports a regulation mechanism of IRSp53 in its attributes of curvature sensation and partner recruitment to ensure a precise spatial-temporal control of filopodia initiation.

Publisher

Cold Spring Harbor Laboratory

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