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Cytoplasmic pool of U1 spliceosome protein SNRNP70 shapes the axonal transcriptome and regulates motor connectivity

Nikolas Nikolaou, Patricia M. Gordon, Fursham Hamid, Richard Taylor, Joshua Lloyd-Jones, Eugene V. Makeyev, Corinne Houart

2022Current Biology20 citationsDOIOpen Access PDF

Abstract

Regulation of pre-mRNA splicing and polyadenylation plays a profound role in neurons by diversifying the proteome and modulating gene expression in response to physiological cues. Although most of the pre-mRNA processing is thought to occur in the nucleus, numerous splicing regulators are also found in neurites. Here, we show that U1-70K/SNRNP70, a component of the major spliceosome, localizes in RNA-associated granules in zebrafish axons. We identify the extra-nuclear SNRNP70 as an important regulator of motor axonal growth, nerve-dependent acetylcholine receptor (AChR) clustering, and neuromuscular synaptogenesis. This cytoplasmic pool has a protective role for a limited number of transcripts regulating their abundance and trafficking inside axons. Moreover, non-nuclear SNRNP70 regulates splice variants of transcripts such as agrin, thereby controlling synapse formation. Our results point to an unexpected, yet essential, function of non-nuclear SNRNP70 in axonal development, indicating a role of spliceosome proteins in cytoplasmic RNA metabolism during neuronal connectivity.

Topics & Concepts

BiologySpliceosomeCell biologyRNA splicingSynaptogenesissnRNPAlternative splicingZebrafishRNAMessenger RNAGeneticsGeneRNA Research and SplicingRNA modifications and cancerRNA and protein synthesis mechanisms
Cytoplasmic pool of U1 spliceosome protein SNRNP70 shapes the axonal transcriptome and regulates motor connectivity | Litcius