Frontiers in Immunology (Nov 2019)

An in silico—in vitro Pipeline Identifying an HLA-A*02:01+ KRAS G12V+ Spliced Epitope Candidate for a Broad Tumor-Immune Response in Cancer Patients

  • Michele Mishto,
  • Michele Mishto,
  • Artem Mansurkhodzhaev,
  • Ge Ying,
  • Aruna Bitra,
  • Robert A. Cordfunke,
  • Sarah Henze,
  • Debdas Paul,
  • John Sidney,
  • Henning Urlaub,
  • Henning Urlaub,
  • Jacques Neefjes,
  • Alessandro Sette,
  • Alessandro Sette,
  • Dirk M. Zajonc,
  • Dirk M. Zajonc,
  • Juliane Liepe,
  • Juliane Liepe

DOI
https://doi.org/10.3389/fimmu.2019.02572
Journal volume & issue
Vol. 10

Abstract

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Targeting CD8+ T cells to recurrent tumor-specific mutations can profoundly contribute to cancer treatment. Some of these mutations are potential tumor antigens although they can be displayed by non-spliced epitopes only in a few patients, because of the low affinity of the mutated non-spliced peptides for the predominant HLA class I alleles. Here, we describe a pipeline that uses the large sequence variety of proteasome-generated spliced peptides and identifies spliced epitope candidates, which carry the mutations and bind the predominant HLA-I alleles with high affinity. They could be used in adoptive T cell therapy and other anti-cancer immunotherapies for large cohorts of cancer patients. As a proof of principle, the application of this pipeline led to the identification of a KRAS G12V mutation-carrying spliced epitope candidate, which is produced by proteasomes, transported by TAPs and efficiently presented by the most prevalent HLA class I molecules, HLA-A*02:01 complexes.

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