| Literature DB >> 31105010 |
Srikanth Budnar1, Kabir B Husain2, Guillermo A Gomez3, Maedeh Naghibosadat4, Amrita Varma5, Suzie Verma4, Nicholas A Hamilton4, Richard G Morris6, Alpha S Yap7.
Abstract
RhoA stimulates cell contractility by recruiting downstream effectors to the cortical plasma membrane. We now show that direct binding by anillin is required for effective signaling: this antagonizes the otherwise labile membrane association of GTP-RhoA to promote effector recruitment. However, since its binding to RhoA blocks access by other effectors, we demonstrate that anillin must also concentrate membrane phosphoinositide-4,5-P2 (PIP2) to promote signaling. We propose and test a sequential pathway where GTP-RhoA first binds to anillin and then is retained at the membrane by PIP2 after it disengages from anillin. Importantly, re-binding of membrane GTP-RhoA to anillin, regulated by the cortical density of anillin, creates cycles through this pathway. These cycles repeatedly reset the dissociation kinetics of GTP-RhoA, substantially increasing its dwell time to recruit effectors. Thus, anillin regulates RhoA signaling by a paradigm of kinetic scaffolding that may apply to other signals whose efficacy depends on their cortical dwell times.Entities:
Keywords: GTPases and junctional tension; PI(4,5)P(2); ROCK1; RhoA; Scaffold; anillin; contractility; mDia1; resetting
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Year: 2019 PMID: 31105010 DOI: 10.1016/j.devcel.2019.04.031
Source DB: PubMed Journal: Dev Cell ISSN: 1534-5807 Impact factor: 12.270