Discovery of prevalent, clinically actionable tumor neoepitopes via integrated biochemical and cell-based platforms

Author:

Gurung Hem,Heidersbach Amy,Darwish Martine,Chan Pamela,Li Jenny,Beresini Maureen,Zill Oliver,Wallace Andrew,Tong Ann-Jay,Hascall Dan,Torres Eric,Chang Andy,Lou Kenny “Hei-Wai”,Abdolazimi Yassan,Moore Amanda,Uche Uzodinma,Laur Melanie,Notturno Richard,Ebert Peter J.R.,Blanchette Craig,Haley Benjamin,Rose Christopher M.

Abstract

SummaryStrategies for maximizing the potency and specificity of cancer immunotherapies have sparked efforts to identify recurrent epitopes presented in the context of defined tumor-associated neoantigens. Discovering these “neoepitopes” can be difficult owing to the limited number of peptides that arise from a single point mutation, a low number of copies presented on the cell surface, and variable binding specificity of the human leukocyte antigen (HLA) class I complex. Due to these limitations, many discovery efforts focus on identifying neoepitopes from a small number of cancer neoantigens in the context of few HLA alleles. Here we describe a systematic workflow to characterize binding and presentation of neoepitopes derived from 47 shared cancer neoantigens in the context of 15 HLA alleles. Through the development of a high-throughput neoepitope-HLA binding assay, we surveyed 24,149 candidate neoepitope-HLA combinations resulting in 587 stable complexes. These data were supplemented by computational prediction that identified an additional 257 neoepitope-HLA pairs, resulting in a total of 844 unique combinations. We used these results to build sensitive targeted mass spectrometry assays to validate neoepitope presentation on a panel of HLA-I monoallelic cell lines engineered to express neoantigens of interest as a single polypeptide. Altogether, our analyses detected 84 unique neoepitope-HLA pairs derived from 37 shared cancer neoantigens and presented across 12 HLA alleles. We subsequently identified multiple TCRs which specifically recognized two of these neoantigen-HLA combinations. Finally, these novel TCRs were utilized to elicit a T cell response suggesting that these neoepitopes are likely to be immunogenic. Together these data represent a validated, extensive resource of therapeutically relevant neoepitopes and the HLA context in which they can be targeted.

Publisher

Cold Spring Harbor Laboratory

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