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MHC II immunogenicity shapes the neoepitope landscape in human tumors.

Jeong Yeon KimHongui ChaKyeonghui KimChanghwan SungJinhyeon AnHyoeun BangHyungjoo KimJin Ok YangSuhwan ChangIncheol ShinSeung-Jae NohInkyung ShinDae-Yeon ChoSe-Hoon LeeJung Kyoon Choi
Published in: Nature genetics (2023)
Despite advances in predicting physical peptide-major histocompatibility complex I (pMHC I) binding, it remains challenging to identify functionally immunogenic neoepitopes, especially for MHC II. By using the results of >36,000 immunogenicity assay, we developed a method to identify pMHC whose structural alignment facilitates T cell reaction. Our method predicted neoepitopes for MHC II and MHC I that were responsive to checkpoint blockade when applied to >1,200 samples of various tumor types. To investigate selection by spontaneous immunity at the single epitope level, we analyzed the frequency spectrum of >25 million mutations in >9,000 treatment-naive tumors with >100 immune phenotypes. MHC II immunogenicity specifically lowered variant frequencies in tumors under high immune pressure, particularly with high TCR clonality and MHC II expression. A similar trend was shown for MHC I neoepitopes, but only in particular tissue types. In summary, we report immune selection imposed by MHC II-restricted natural or therapeutic T cell reactivity.
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