Journal for ImmunoTherapy of Cancer (Mar 2022)

Targeting the tumor mutanome for personalized vaccination in a TMB low non-small cell lung cancer

  • Chuan Wang,
  • Kaïdre Bendjama,
  • Stephen Schoenberger,
  • Oliver Wood,
  • Gareth Thomas,
  • Pandurangan Vijayanand,
  • Tilman Sanchez-Elsner,
  • Nathalie Silvestre,
  • Natalia Savelyeva,
  • Christian Ottensmeier,
  • Katy McCann,
  • Adrian von Witzleben,
  • Jaya Thomas,
  • Divya Singh,
  • Konstantinos Boukas,
  • Finn Cilius Nielsen,
  • Jason Greenbaum,
  • Bjoern Peters

DOI
https://doi.org/10.1136/jitc-2021-003821
Journal volume & issue
Vol. 10, no. 3

Abstract

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Background Cancer is characterized by an accumulation of somatic mutations, of which a significant subset can generate cancer-specific neoepitopes that are recognized by autologous T cells. Such neoepitopes are emerging as important targets for cancer immunotherapy, including personalized cancer vaccination strategies.Methods We used whole-exome and RNA sequencing analysis to identify potential neoantigens for a patient with non-small cell lung cancer. Thereafter, we assessed the autologous T-cell reactivity to the candidate neoantigens using a long peptide approach in a cultured interferon gamma ELISpot and tracked the neoantigen-specific T-cells in the tumor by T-cell receptor (TCR) sequencing. In parallel, identified gene variants were incorporated into a Modified Vaccinia Ankara-based vaccine, which was evaluated in the human leucocyte antigen A*0201 transgenic mouse model (HHD).Results Sequencing revealed a tumor with a low mutational burden: 2219 sequence variants were identified from the primary tumor, of which 23 were expressed in the transcriptome, involving 18 gene products. We could demonstrate spontaneous T-cell responses to 5/18 (28%) mutated gene variants, and further analysis of the TCR repertoire of neoantigen-specific CD4+ and CD8+ T cells revealed TCR clonotypes that were expanded in both blood and tumor tissue. Following vaccination of HHD mice, de novo T-cell responses were generated to 4/18 (22%) mutated gene variants; T cells reactive against two variants were also evident in the autologous setting. Subsequently, we determined the major histocompatibility complex restriction of the T-cell responses and used in silico prediction tools to determine the likely neoepitopes.Conclusions Our study demonstrates the feasibility of efficiently identifying tumor-specific neoantigens that can be targeted by vaccination in tumors with a low mutational burden, promising successful clinical exploitation, with trials currently underway.