Frontiers in Molecular Neuroscience (Aug 2023)

Spinal cord injury regulates circular RNA expression in axons

  • Mustafa M. Siddiq,
  • Carlos A. Toro,
  • Carlos A. Toro,
  • Nicholas P. Johnson,
  • Jens Hansen,
  • Yuguang Xiong,
  • Wilfredo Mellado,
  • Rosa E. Tolentino,
  • Kaitlin Johnson,
  • Gomathi Jayaraman,
  • Zaara Suhail,
  • Lauren Harlow,
  • Lauren Harlow,
  • Jinye Dai,
  • Jinye Dai,
  • Jinye Dai,
  • Kristin G. Beaumont,
  • Kristin G. Beaumont,
  • Robert Sebra,
  • Robert Sebra,
  • Dianna E. Willis,
  • Dianna E. Willis,
  • Christopher P. Cardozo,
  • Christopher P. Cardozo,
  • Christopher P. Cardozo,
  • Ravi Iyengar

DOI
https://doi.org/10.3389/fnmol.2023.1183315
Journal volume & issue
Vol. 16

Abstract

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IntroductionNeurons transport mRNA and translational machinery to axons for local translation. After spinal cord injury (SCI), de novo translation is assumed to enable neurorepair. Knowledge of the identity of axonal mRNAs that participate in neurorepair after SCI is limited. We sought to identify and understand how axonal RNAs play a role in axonal regeneration.MethodsWe obtained preparations enriched in axonal mRNAs from control and SCI rats by digesting spinal cord tissue with cold-active protease (CAP). The digested samples were then centrifuged to obtain a supernatant that was used to identify mRNA expression. We identified differentially expressed genes (DEGS) after SCI and mapped them to various biological processes. We validated the DEGs by RT-qPCR and RNA-scope.ResultsThe supernatant fraction was highly enriched for mRNA from axons. Using Gene Ontology, the second most significant pathway for all DEGs was axonogenesis. Among the DEGs was Rims2, which is predominately a circular RNA (circRNA) in the CNS. We show that Rims2 RNA within spinal cord axons is circular. We found an additional 200 putative circRNAs in the axonal-enriched fraction. Knockdown in primary rat cortical neurons of the RNA editing enzyme ADAR1, which inhibits formation of circRNAs, significantly increased axonal outgrowth and increased the expression of circRims2. Using Rims2 as a prototype we used Circular RNA Interactome to predict miRNAs that bind to circRims2 also bind to the 3’UTR of GAP-43, PTEN or CREB1, all known regulators of axonal outgrowth. Axonally-translated GAP-43 supports axonal elongation and we detect GAP-43 mRNA in the rat axons by RNAscope.DiscussionBy enriching for axonal RNA, we detect SCI induced DEGs, including circRNA such as Rims2. Ablation of ADAR1, the enzyme that regulates circRNA formation, promotes axonal outgrowth of cortical neurons. We developed a pathway model using Circular RNA Interactome that indicates that Rims2 through miRNAs can regulate the axonal translation GAP-43 to regulate axonal regeneration. We conclude that axonal regulatory pathways will play a role in neurorepair.

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