Neuronal cell adhesion molecule (NRCAM) variant defined by microexon skipping is an essential, antigenically distinct, and targetable proteoform in high-grade glioma

  1. Priyanka Sehgal
  2. Ammar S. Naqvi
  3. Makenna Higgins
  4. Jiageng Liu
  5. Kyra Harvey
  6. Julien Jarroux
  7. Taewoo Kim
  8. Berk Mankaliye
  9. Pamela Mishra
  10. Grace Watterson
  11. Justyn Fine
  12. Jacinta Davis
  13. Katharina E. Hayer
  14. Annette Castro
  15. Adanna Mogbo
  16. Charles Drummer
  17. Daniel Martinez
  18. Mateusz P. Koptyra
  19. Zhiwei Ang
  20. Kai Wang
  21. Alvin Farrel
  22. Mathieu Quesnel-Vallieres
  23. Yoseph Barash
  24. Jamie B. Spangler
  25. Jo Lynne Rokita
  26. Adam C. Resnick
  27. Hagen U. Tilgner
  28. Thomas DeRaedt
  29. Daniel J Powell
  30. Andrei Thomas-Tikhonenko
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Abstract

To overcome the paucity of known tumor-specific surface antigens in pediatric high-grade glioma (pHGG), we contrasted splicing patterns in pHGGs and normal brain samples. Among alternative splicing events affecting extracellular protein domains, the most pervasive alteration was the skipping of ≤30 nucleotide-long microexons. Several of these skipped microexons mapped to L1-IgCAM family members, such asNRCAM. Bulk and single-nuclei short- and long-read RNA-seq revealed uniform skipping ofNRCAMmicroexons 5 and 19 in virtually every pHGG sample. Importantly, the Δex5Δex19 (but not the full-length) NRCAM proteoform was essential for pHGG cell migration and invasion in vitro and tumor growth in vivo. We developed a monoclonal antibody selective for Δex5Δex19 NRCAM and demonstrated that “painting” of pHGG cells with this antibody enables killing by T cells armed with an FcRI-based universal immune receptor. Thus, pHGG-specific NRCAM and possibly other L1-IgCAM proteoforms are promising and highly selective targets for adoptive immunotherapies.

Statement of significance

Existing targets for chimeric antigen receptors (CAR)-armed T cells are often shared by CNS tumors and normal tissues, creating the potential for on-target/off-tumor toxicities. Here we demonstrate that in CNS tumors of glial origin, cell adhesion molecules have alternatively spliced proteoforms, which could be targeted by highly selective therapeutic antibodies.

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