Frontiers in Immunology (Feb 2023)

Targeting the recurrent Rac1P29S neoepitope in melanoma with heterologous high-affinity T cell receptors

  • Lena Immisch,
  • Lena Immisch,
  • Lena Immisch,
  • George Papafotiou,
  • George Papafotiou,
  • George Papafotiou,
  • Nerea Gallarín Delgado,
  • Vivian Scheuplein,
  • Annette Paschen,
  • Annette Paschen,
  • Thomas Blankenstein,
  • Thomas Blankenstein,
  • Gerald Willimsky,
  • Gerald Willimsky,
  • Gerald Willimsky,
  • Gerald Willimsky

DOI
https://doi.org/10.3389/fimmu.2023.1119498
Journal volume & issue
Vol. 14

Abstract

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Recurrent neoepitopes are cancer-specific antigens common among groups of patients and therefore ideal targets for adoptive T cell therapy. The neoepitope FSGEYIPTV carries the Rac1P29S amino acid change caused by a c.85C>T missense mutation, which is the third most common hotspot mutation in melanoma. Here, we isolated and characterized TCRs to target this HLA-A*02:01-binding neoepitope by adoptive T cell therapy. Peptide immunization elicited immune responses in transgenic mice expressing a diverse human TCR repertoire restricted to HLA-A*02:01, which enabled isolation of high-affinity TCRs. TCR-transduced T cells induced cytotoxicity against Rac1P29S expressing melanoma cells and we observed regression of Rac1P29S expressing tumors in vivo after adoptive T cell therapy (ATT). Here we found that a TCR raised against a heterologous mutation with higher peptide-MHC affinity (Rac2P29L) more efficiently targeted the common melanoma mutation Rac1P29S. Overall, our study provides evidence for the therapeutic potential of Rac1P29S-specific TCR-transduced T cells and reveal a novel strategy by generating more efficient TCRs by heterologous peptides.

Keywords