Ahmed S Fahad, Cheng-Yu Chung, Sheila N Lopez Acevedo, Nicoleen Boyle, Bharat Madan, Matias F Gutiérrez-González, Rodrigo Matus-Nicodemos, Amy D Laflin, Rukmini R Ladi, John Zhou, Jacy Wolfe, Sian Llewellyn-Lacey, Richard A Koup, Daniel C Douek, Henry H Balfour, David A Price, Brandon J DeKosky
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引用次数: 0
Abstract
Functional analyses of the T cell receptor (TCR) landscape can reveal critical information about protection from disease and molecular responses to vaccines. However, it has proven difficult to combine advanced next-generation sequencing technologies with methods to decode the peptide-major histocompatibility complex (pMHC) specificity of individual TCRs. We developed a new high-throughput approach to enable repertoire-scale functional evaluations of natively paired TCRs. In particular, we leveraged the immortalized nature of physically linked TCRα:β amplicon libraries to analyze binding against multiple recombinant pMHCs on a repertoire scale, and to exemplify the utility of this approach, we also performed affinity-based functional mapping in conjunction with quantitative next-generation sequencing to track antigen-specific TCRs. These data successfully validated a new immortalization and screening platform to facilitate detailed molecular analyses of disease-relevant antigen interactions with human TCRs.
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