TY - JOUR T1 - A pair of E3 ubiquitin ligases compete to regulate filopodial dynamics and axon guidance TRIM67 regulates filopodial stability and axon guidance JF - bioRxiv DO - 10.1101/529222 SP - 529222 AU - Nicholas P. Boyer AU - Laura E. McCormick AU - Fabio L. Urbina AU - Stephanie L. Gupton Y1 - 2019/01/01 UR - http://biorxiv.org/content/early/2019/03/01/529222.abstract N2 - Appropriate axon guidance is necessary to form accurate neuronal connections. Guidance cues stimulate reorganization of the cytoskeleton within the distal growth cone at the tip of the extending axon. Filopodia at the periphery of the growth cone have long been considered sensors for axon guidance cues, yet how they perceive and respond to extracellular cues remains ill-defined. Our previous work found that the filopodial actin polymerase VASP is regulated via TRIM9-dependent nondegradative ubiquitination, and that appropriate VASP ubiquitination and deubiquitination are required for axon turning in response to the guidance cue netrin-1. Here we show that the TRIM9-related protein TRIM67 antagonizes VASP ubiquitination by outcompeting the TRIM9:VASP interaction. This antagonistic role is required for netrin-1 dependent filopodial responses, axon turning and branching, and fiber tract formation. We suggest a novel model that coordinated regulation of nondegradative VASP ubiquitination by a pair of ligases is a critical element of axon guidance. ER -