AI Article Synopsis
- RhoA enhances cell contractility by recruiting downstream signaling effectors to the plasma membrane, which is influenced by the protein anillin.
- Anillin is crucial for stabilizing RhoA's membrane association, but it also hinders other effectors from accessing RhoA, necessitating the concentration of phosphoinositide-4,5-P (PIP) to allow proper signaling.
- The study proposes a mechanism in which GTP-RhoA first binds to anillin, then stays at the membrane with the help of PIP, with the binding cycles between GTP-RhoA and anillin increasing RhoA's effectiveness in recruiting additional effectors.
Article 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-P (PIP) 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 PIP 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.
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| http://dx.doi.org/10.1016/j.devcel.2019.04.031 | DOI Listing |
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