The T Cell Receptor β Chain Repertoire of Tumor Infiltrating Lymphocytes Improves Neoantigen Prediction and Prioritization

Author:

Pham Thi Mong Quynh1,Nguyen Thanh Nhan1,Nguyen Bui Que Tran1,Tran Thi Phuong Diem1,Pham Nguyen My Diem1,Nguyen Hoang Thien Phuc1,Ho Thi Kim Cuong1,Nguyen Dinh Viet Linh1,Nguyen Huu Thinh2,Tran Duc Huy2,Tran Thanh Sang2,Pham Truong-Vinh Ngoc2,Le Minh-Triet2,Nguyen Thi Tuong Vy1,Phan Minh-Duy1,Giang Hoa1,Nguyen Hoai-Nghia1,Tran Le Son1

Affiliation:

1. Medical Genetics Institute

2. University Medical Center Ho Chi Minh City

Abstract

In the realm of cancer immunotherapy, the meticulous selection of neoantigens plays a fundamental role in enhancing personalized treatments. Traditionally, this selection process has heavily relied on predicting the binding of peptides to human leukocyte antigens (pHLA). Nevertheless, this approach often overlooks the dynamic interaction between tumor cells and the immune system. In response to this limitation, we have developed an innovative prediction algorithm rooted in machine learning, integrating T cell receptor β chain (TCRβ) profiling data from colorectal cancer (CRC) patients for a more precise neoantigen prioritization. TCRβ sequencing was conducted to profile the TCR repertoire of tumor-infiltrating lymphocytes (TILs) from 28 CRC patients. The data unveiled both intra-tumor and inter-patient heterogeneity in the TCRβ repertoires of CRC patients, likely resulting from the stochastic utilization of V and J segments in response to neoantigens. Our novel combined model integrates pHLA binding information with pHLA-TCR binding to prioritize neoantigens, resulting in heightened specificity and sensitivity compared to models using individual features alone. The efficacy of our proposed model was corroborated through ELISpot assays on long peptides, performed on four CRC patients. These assays demonstrated that neoantigen candidates prioritized by our combined model outperformed predictions made by the established tool NetMHCpan. This comprehensive assessment underscores the significance of integrating pHLA binding with pHLA-TCR binding analysis for more effective immunotherapeutic strategies.

Publisher

eLife Sciences Publications, Ltd

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