Selective phosphorylation of serine 345 on p47-phox serves as a priming signal of ROS-mediated axonal degeneration

Oxidative stress is a well-known inducer of two major neurodegenerative pathways, neuronal cell death and neurite degeneration. We previously reported that reactive oxygen species (ROS) generated by NADPH oxidases induces EGFR-dependent phosphorylation and activation of ZNRF1 ubiquitin ligase in neurons, which promotes neuronal cell death and neurite degeneration. While these findings provide a potential therapeutic avenue for neurodegeneration, a deeper understanding of the molecular mechanisms of this pathway have emerged as key points of interest. Here, we show that a NADPH oxidase subunit p47-phox/neutrophil cytosolic factor 1 regulates ZNRF1 activity. Using an in vitro neurite degeneration model, we demonstrate that transection-induced phosphorylation of p47-phox at the 345th serine residue by p38 MAPK serves as an initiating signal to activate ZNRF1. The phosphorylated p47 (pS345) or a phospho-mimetic mutant p47-phox binds directly to ZNRF1 whereas a phosphorylation-resistant mutant p47-phox cannot bind to ZNRF1 and its overexpression in neurites significantly suppresses ZNRF1 activation, AKT ubiquitination, and degeneration after transection, suggesting that pS345 might enhance the EGFR-mediated phosphorylation-dependent activation of ZNRF1. These results suggest that pS345 might represent an important checkpoint to initiate the ZNRF1-mediated neurite degeneration. Our findings provide novel insights into the mechanism of ROS-mediated neurodegeneration. •An NADPH oxidase subunit p47 regulates ZNRF1 ubiquitin ligase activity.•Phosphorylation of p47 at S345 (pS345) is an essential step for ZNRF1 activation.•pS345 is an important checkpoint to initiate ROS-mediated neurite degeneration.