Litcius/Paper detail

hnRNP R promotes O-GlcNAcylation of eIF4G and facilitates axonal protein synthesis

Abdolhossein Zare, Saeede Salehi, Jakob M. Bader, Cornelius Schneider, Utz Fischer, Alexander Veh, Panagiota Arampatzi, Matthias Mann, Michael Briese, Michael Sendtner

2024Nature Communications15 citationsDOIOpen Access PDF

Abstract

Motoneurons critically depend on precise spatial and temporal control of translation for axon growth and the establishment and maintenance of neuromuscular connections. While defects in local translation have been implicated in the pathogenesis of motoneuron disorders, little is known about the mechanisms regulating axonal protein synthesis. Here, we report that motoneurons derived from Hnrnpr knockout mice show reduced axon growth accompanied by lowered synthesis of cytoskeletal and synaptic components in axons. Mutant mice display denervated neuromuscular junctions and impaired motor behavior. In axons, hnRNP R is a component of translation initiation complexes and, through interaction with O-linked β-N-acetylglucosamine (O-GlcNAc) transferase (Ogt), modulates O-GlcNAcylation of eIF4G. Restoring axonal O-GlcNAc levels rescued local protein synthesis and axon growth defects of hnRNP R knockout motoneurons. Together, these findings demonstrate a function of hnRNP R in controlling the local production of key factors required for axon growth and formation of neuromuscular innervations.

Topics & Concepts

AxonTranslation (biology)Cell biologyEIF4GBiologyGrowth coneAxoplasmic transportNeuroscienceKnockout mouseNeuriteMessenger RNABiochemistryGeneIn vitroNeurogenetic and Muscular Disorders ResearchRNA Research and SplicingMuscle Physiology and Disorders