T cell receptor–engineered T cells targeting the TP53R248Q neoantigen elicit antitumor effects in human cancer models
Lianghua Shen, Ziyu Chen, Jian Xu, Qiaomei He, Changmeng Zhang, Xiao Zhou, Xiaodan Ding, Jinan Fang, Fanlin Li, Ming Jiao, Yuqin Yang, Baoxia Dong, Liping Wan, Xueying Ding, Yan Zheng, Jingyi Zhou, Chijian Zuo, Tian Min, Ming Zhu, Bin Ma, Yuhua Wan, Qiufang Guo, Hua Zhang, Jian Hua, Pengran Wang, Qi Li, Jiang Long, Xianmin Song, Yan Zhang
Lianghua Shen, Ziyu Chen, Jian Xu, Qiaomei He, Changmeng Zhang, Xiao Zhou, Xiaodan Ding, Jinan Fang, Fanlin Li, Ming Jiao, Yuqin Yang, Baoxia Dong, Liping Wan, Xueying Ding, Yan Zheng, Jingyi Zhou, Chijian Zuo, Tian Min, Ming Zhu, Bin Ma, Yuhua Wan, Qiufang Guo, Hua Zhang, Jian Hua, Pengran Wang, Qi Li, Jiang Long, Xianmin Song, Yan Zhang
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Research Article Immunology Oncology

T cell receptor–engineered T cells targeting the TP53R248Q neoantigen elicit antitumor effects in human cancer models

Abstract

Malignant tumors with TP53 mutations exhibit poor therapeutic outcomes and high recurrence rates. T cell receptor–based (TCR-based) T cell therapy shows great promise for targeting intracellular cancer neoantigens. However, the immunogenic potential of TP53 hotspot mutations remains poorly characterized. Here, we identified an immunogenic neoantigen derived from the recurrent TP53R248Q mutation, presented by the prevalent HLA-A*11:01 allele. Additionally, we isolated a TP53R248Q-reactive TCR that specifically recognized the TP53R248Q mutation without any discernible cross-activity with cognate WT TP53 or other TP53 mutants at the same codon position. Functional characterization revealed that TP53R248Q TCR-T cells exhibited selective cytotoxicity against tumor cells expressing both the TP53R248Q mutation and HLA-A*11:01 in vitro. Importantly, the adoptive transfer of TP53R248Q TCR-T cells exhibited significant antitumor activity in a clinically relevant patient-derived xenograft model engrafted with TP53R248Q/HLA-A*11:01–positive human tumor tissues. Collectively, our study validates the immunogenicity of the TP53R248Q hotspot mutation and provides a TCR with high therapeutic potential for the development of T cell therapies targeting TP53R248Q/HLA-A*11:01–positive cancers.

Authors

Lianghua Shen, Ziyu Chen, Jian Xu, Qiaomei He, Changmeng Zhang, Xiao Zhou, Xiaodan Ding, Jinan Fang, Fanlin Li, Ming Jiao, Yuqin Yang, Baoxia Dong, Liping Wan, Xueying Ding, Yan Zheng, Jingyi Zhou, Chijian Zuo, Tian Min, Ming Zhu, Bin Ma, Yuhua Wan, Qiufang Guo, Hua Zhang, Jian Hua, Pengran Wang, Qi Li, Jiang Long, Xianmin Song, Yan Zhang

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Figure 1

Identification of TP53 antigenic peptides and their HLA restriction.

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Identification of TP53 antigenic peptides and their HLA restriction. (A)...
(A) ICGC database analysis of top 10 TP53 site mutation and frequency information in patients with all cancer types (n = 4435) or hematological tumors (n = 84) with concomitant TP53 mutations. (B) Clinical data from 265 patients at Shanghai General Hospital with hematologic malignancy with TP53 site mutations. (C) Vector map of the tandem TP53 neoantigen expression constructs used in this study. (D) Process overview for the K562 cell engineering and MAE/MS analysis of neopeptides presented by tandem TP53 mutation–expressing HLA monoallelic K562 cell lines. (E) TP53R248Q neopeptide (SCMGGMNQR) and TP53E285Q neopeptide (RTQEENLRK) were found to be specifically presented by HLA-A*11:01 through MAE/MS. (F) Comprehensive analysis of the IARC TP53 database revealed the TP53R248Q hotspot mutation frequency exhibited in different cancer types. (G) Analysis of The Cancer Genome Atlas (TCGA) database for TP53R248Q-positive pan-cancer patient samples shows high VAF for TP53R248Q in a large fraction of patients (n = 101).