Nature Communications (May 2024)

Discovery of immunotherapy targets for pediatric solid and brain tumors by exon-level expression

  • Timothy I. Shaw,
  • Jessica Wagner,
  • Liqing Tian,
  • Elizabeth Wickman,
  • Suresh Poudel,
  • Jian Wang,
  • Robin Paul,
  • Selene C. Koo,
  • Meifen Lu,
  • Heather Sheppard,
  • Yiping Fan,
  • Francis H. O’Neill,
  • Ching C. Lau,
  • Xin Zhou,
  • Jinghui Zhang,
  • Stephen Gottschalk

DOI
https://doi.org/10.1038/s41467-024-47649-y
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 15

Abstract

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Abstract Immunotherapy with chimeric antigen receptor T cells for pediatric solid and brain tumors is constrained by available targetable antigens. Cancer-specific exons present a promising reservoir of targets; however, these have not been explored and validated systematically in a pan-cancer fashion. To identify cancer specific exon targets, here we analyze 1532 RNA-seq datasets from 16 types of pediatric solid and brain tumors for comparison with normal tissues using a newly developed workflow. We find 2933 exons in 157 genes encoding proteins of the surfaceome or matrisome with high cancer specificity either at the gene (n = 148) or the alternatively spliced isoform (n = 9) level. Expression of selected alternatively spliced targets, including the EDB domain of fibronectin 1, and gene targets, such as COL11A1, are validated in pediatric patient derived xenograft tumors. We generate T cells expressing chimeric antigen receptors specific for the EDB domain or COL11A1 and demonstrate that these have antitumor activity. The full target list, explorable via an interactive web portal ( https://cseminer.stjude.org/ ), provides a rich resource for developing immunotherapy of pediatric solid and brain tumors using gene or AS targets with high expression specificity in cancer.