Trio and CRMP2 regulate axon branching and Semaphorin3A signaling
Erin Fingleton, Alexandra Lombardo, Sehoon Won, Kai Chang, Yan Li, Katherine W. Roche

TL;DR
This study identifies how Trio and CRMP2 work together to control axon branching during neural development.
Contribution
The paper reveals a phosphorylation-dependent interaction between Trio and CRMP2 that suppresses axon branching.
Findings
Trio interacts with phosphorylated CRMP2 to limit filopodial motility and axon branching.
Trio-GEF1 signaling is essential for pCRMP2-mediated axon branch suppression.
Semaphorin3A activates pCRMP2-Trio signaling to regulate axon branching.
Abstract
Trio is a neuronally expressed, Rac1- and RhoA-activating RhoGEF, that is required for neurodevelopment. Mutations affecting the Rac1-activating GEF domain of Trio are associated with profound neurodevelopmental delay and Trio knock-out is embryonic lethal. Although there are studies showing a role for Trio in axon patterning, our understanding of the mechanistic underpinnings of Trio function is incomplete. We have now taken an unbiased approach to identifying the interactome of Trio in embryonic axonal compartments. Using immunoprecipitation-mass spectrometry, we identified the Collapsin Response Mediator Protein 2 (CRMP2) as a robust association partner of growth cone-localized Trio. Like Trio, CRMP2 has a well-known role in shaping the cytoskeleton, particularly during axon patterning. In the current study, we demonstrate Trio preferentially interacts with phosphorylated CRMP2…
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Taxonomy
TopicsAxon Guidance and Neuronal Signaling · Nerve injury and regeneration · Microtubule and mitosis dynamics
