Pharmacologic modulation of RNA splicing enhances anti-tumor immunity Journal Article

   


Authors: Lu, S. X.; De Neef, E.; Thomas, J. D.; Sabio, E.; Rousseau, B.; Gigoux, M.; Knorr, D. A.; Greenbaum, B.; Elhanati, Y.; Hogg, S. J.; Chow, A.; Ghosh, A.; Xie, A.; Zamarin, D.; Cui, D.; Erickson, C.; Singer, M.; Cho, H.; Wang, E.; Lu, B.; Durham, B. H.; Shah, H.; Chowell, D.; Gabel, A. M.; Shen, Y.; Liu, J.; Jin, J.; Rhodes, M. C.; Taylor, R. E.; Molina, H.; Wolchok, J. D.; Merghoub, T.; Diaz, L. A. Jr; Abdel-Wahab, O.; Bradley, R. K.
Article Title: Pharmacologic modulation of RNA splicing enhances anti-tumor immunity
Abstract: Although mutations in DNA are the best-studied source of neoantigens that determine response to immune checkpoint blockade, alterations in RNA splicing within cancer cells could similarly result in neoepitope production. However, the endogenous antigenicity and clinical potential of such splicing-derived epitopes have not been tested. Here, we demonstrate that pharmacologic modulation of splicing via specific drug classes generates bona fide neoantigens and elicits anti-tumor immunity, augmenting checkpoint immunotherapy. Splicing modulation inhibited tumor growth and enhanced checkpoint blockade in a manner dependent on host T cells and peptides presented on tumor MHC class I. Splicing modulation induced stereotyped splicing changes across tumor types, altering the MHC I-bound immunopeptidome to yield splicing-derived neoepitopes that trigger an anti-tumor T cell response in vivo. These data definitively identify splicing modulation as an untapped source of immunogenic peptides and provide a means to enhance response to checkpoint blockade that is readily translatable to the clinic. © 2021 Elsevier Inc.
Keywords: immunotherapy; rna splicing; splicing; immune checkpoint blockade; prmts; neoantigens; pd1; rbm39; neoepitopes; immunopeptidome
Journal Title: Cell
Volume: 184
Issue: 15
ISSN: 0092-8674
Publisher: Cell Press  
Date Published: 2021-07-22
Start Page: 4032
End Page: 4047.e31
Language: English
DOI: 10.1016/j.cell.2021.05.038
PUBMED: 34171309
PROVIDER: scopus
PMCID: PMC8684350
DOI/URL:

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85110593691&doi=10.1016%2fj.cell.2021.05.038&partnerID=40&md5=cd19173adcf64b6bcf61eaff26cfe701
Notes: Article -- Export Date: 2 August 2021 -- Source: Scopus
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MSK Authors
  1. Jedd D Wolchok
    905 Wolchok
  2. Taha Merghoub
    364 Merghoub
  3. Dmitriy Zamarin
    201 Zamarin
  4. Arnab Ghosh
    64 Ghosh
  5. Omar Ibrahim Abdel-Wahab
    573 Abdel-Wahab
  6. Sydney X Lu
    100 Lu
  7. Benjamin Heath Durham
    115 Durham
  8. Hana Cho
    21 Cho
  9. Erich Sabio
    9 Sabio
  10. Luis Alberto Diaz
    149 Diaz
  11. Mathieu Gigoux
    23 Gigoux
  12. David A Knorr
    22 Knorr
  13. Andrew Chow
    45 Chow
  14. Benoit Rousseau
    51 Rousseau
  15. Caroline E. Erickson
    15 Erickson
  16. Harshal R Shah
    2 Shah
  17. Yuval Elhanati
    18 Elhanati
  18. Simon John Hogg
    26 Hogg
  19. Benjamin Dylan Greenbaum
    58 Greenbaum
  20. Eric Wang
    11 Wang
  21. Daniel Cui
    6 Cui
  22. Michael Emet Zuri Singer
    8 Singer
  23. Bin Lu
    6 Lu
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