BMC Cancer (Nov 2021)

The landscape of coding RNA editing events in pediatric cancer

  • Ji Wen,
  • Michael Rusch,
  • Samuel W. Brady,
  • Ying Shao,
  • Michael N. Edmonson,
  • Timothy I. Shaw,
  • Brent B. Powers,
  • Liqing Tian,
  • John Easton,
  • Charles G. Mullighan,
  • Tanja Gruber,
  • David Ellison,
  • Jinghui Zhang

DOI
https://doi.org/10.1186/s12885-021-08956-5
Journal volume & issue
Vol. 21, no. 1
pp. 1 – 14

Abstract

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Abstract Background RNA editing leads to post-transcriptional variation in protein sequences and has important biological implications. We sought to elucidate the landscape of RNA editing events across pediatric cancers. Methods Using RNA-Seq data mapped by a pipeline designed to minimize mapping ambiguity, we investigated RNA editing in 711 pediatric cancers from the St. Jude/Washington University Pediatric Cancer Genome Project focusing on coding variants which can potentially increase protein sequence diversity. We combined de novo detection using paired tumor DNA-RNA data with analysis of known RNA editing sites. Results We identified 722 unique RNA editing sites in coding regions across pediatric cancers, 70% of which were nonsynonymous recoding variants. Nearly all editing sites represented the canonical A-to-I (n = 706) or C-to-U sites (n = 14). RNA editing was enriched in brain tumors compared to other cancers, including editing of glutamate receptors and ion channels involved in neurotransmitter signaling. RNA editing profiles of each pediatric cancer subtype resembled those of the corresponding normal tissue profiled by the Genotype-Tissue Expression (GTEx) project. Conclusions In this first comprehensive analysis of RNA editing events in pediatric cancer, we found that the RNA editing profile of each cancer subtype is similar to its normal tissue of origin. Tumor-specific RNA editing events were not identified indicating that successful immunotherapeutic targeting of RNA-edited peptides in pediatric cancer should rely on increased antigen presentation on tumor cells compared to normal but not on tumor-specific RNA editing per se.

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