Litcius/Paper detail

Molecular mechanisms behind mRNA localization in axons

Benita Turner-Bridger, Cinzia Caterino, Jean-Michel Cioni

2020Open Biology42 citationsDOIOpen Access PDF

Abstract

Messenger RNA (mRNA) localization allows spatiotemporal regulation of the proteome at the subcellular level. This is observed in the axons of neurons, where mRNA localization is involved in regulating neuronal development and function by orchestrating rapid adaptive responses to extracellular cues and the maintenance of axonal homeostasis through local translation. Here, we provide an overview of the key findings that have broadened our knowledge regarding how specific mRNAs are trafficked and localize to axons. In particular, we review transcriptomic studies investigating mRNA content in axons and the molecular principles underpinning how these mRNAs arrived there, including cis-acting mRNA sequences and trans-acting proteins playing a role. Further, we discuss evidence that links defective axonal mRNA localization and pathological outcomes.

Topics & Concepts

BiologyMessenger RNATranslation (biology)Cell biologyProteomeTranscriptomeP-bodiesSubcellular localizationFunction (biology)NeuroscienceGene expressionGeneBioinformaticsGeneticsCytoplasmRNA Research and SplicingRNA regulation and diseaseRNA modifications and cancer
Molecular mechanisms behind mRNA localization in axons | Litcius