Journal for ImmunoTherapy of Cancer (Jun 2021)

Identification and validation of expressed HLA-binding breast cancer neoepitopes for potential use in individualized cancer therapy

  • Jeffrey Schlom,
  • James L Gulley,
  • Andrew Nguyen,
  • Shahrooz Rabizadeh,
  • Kayvan Niazi,
  • Patrick Soon-Shiong,
  • Duane H Hamilton,
  • Marieke Griffioen,
  • Andreas Mackensen,
  • Stephen C Benz,
  • Patricia Spilman,
  • Peter A Fasching,
  • Matthias W Beckmann,
  • Alexander Hein,
  • Matthias Ruebner,
  • Hannah Reimann,
  • J Zachary Sanborn,
  • Charles J Vaske,
  • Edith D van der Meijden,
  • Judith Bausenwein,
  • Sascha Kretschmann,
  • Karin L Lee,
  • Anita N. Kremer

DOI
https://doi.org/10.1136/jitc-2021-002605
Journal volume & issue
Vol. 9, no. 6

Abstract

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Background Therapeutic regimens designed to augment the immunological response of a patient with breast cancer (BC) to tumor tissue are critically informed by tumor mutational burden and the antigenicity of expressed neoepitopes. Herein we describe a neoepitope and cognate neoepitope-reactive T-cell identification and validation program that supports the development of next-generation immunotherapies.Methods Using GPS Cancer, NantOmics research, and The Cancer Genome Atlas databases, we developed a novel bioinformatic-based approach which assesses mutational load, neoepitope expression, human leukocyte antigen (HLA)-binding prediction, and in vitro confirmation of T-cell recognition to preferentially identify targetable neoepitopes. This program was validated by application to a BC cell line and confirmed using tumor biopsies from two patients with BC enrolled in the Tumor-Infiltrating Lymphocytes and Genomics (TILGen) study.Results The antigenicity and HLA-A2 restriction of the BC cell line predicted neoepitopes were determined by reactivity of T cells from HLA-A2-expressing healthy donors. For the TILGen subjects, tumor-infiltrating lymphocytes (TILs) recognized the predicted neoepitopes both as peptides and on retroviral expression in HLA-matched Epstein-Barr virus–lymphoblastoid cell line and BC cell line MCF-7 cells; PCR clonotyping revealed the presence of T cells in the periphery with T-cell receptors for the predicted neoepitopes. These high-avidity immune responses were polyclonal, mutation-specific and restricted to either HLA class I or II. Interestingly, we observed the persistence and expansion of polyclonal T-cell responses following neoadjuvant chemotherapy.Conclusions We demonstrate our neoepitope prediction program allows for the successful identification of neoepitopes targeted by TILs in patients with BC, providing a means to identify tumor-specific immunogenic targets for individualized treatment, including vaccines or adoptively transferred cellular therapies.