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The biochemical mechanism of Rho GTPase membrane binding, activation and retention in activity patterning

Michael C. Armstrong, Yannic R Weiß, Lila E Hoachlander-Hobby, Ankit Roy, Ilaria Visco, Alison Moe, Adriana E. Golding, Scott D. Hansen, William M. Bement, Peter Bieling

2025The EMBO Journal9 citationsDOIOpen Access PDF

Abstract

Rho GTPases form plasma membrane-associated patterns that control the cytoskeleton during cell division, morphogenesis, migration, and wound repair. Their patterning involves transitions between inactive cytosolic and active membrane-bound states, regulated by guanine nucleotide exchange factors (GEFs), GTPase-activating proteins (GAPs), and guanine nucleotide dissociation inhibitors (GDIs). However, the relationships between these transitions and role of different regulators remain unclear. We developed a novel reconstitution approach to study Rho GTPase patterning with all major GTPase regulators in a biochemically defined system. We show that Rho GTPase dissociation from RhoGDI is rate-limiting for its membrane association. Rho GTPase activation occurs after membrane insertion, which is unaffected by GEF activity. Once activated, Rho GTPases are retained at the membrane through effector interactions, essential for their enrichment at activation sites. Thus, high cytosolic levels of RhoGDI-bound GTPases ensure a constant supply of inactive GTPases for the membrane, where GEF-mediated activation and effector binding stabilize them. These results delineate the route by which Rho GTPase patterns are established and define stage-dependent roles of its regulators.

Topics & Concepts

GTPaseGuanine nucleotide exchange factorBiologyCell biologyEffectorCytosolCDC42GTPase-activating proteinCytoskeletonSmall GTPaseBiochemistrySignal transductionG proteinCellEnzymeProtein Kinase Regulation and GTPase SignalingCellular transport and secretionCellular Mechanics and Interactions
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