肽
主要组织相容性复合体
化学
计算生物学
生物化学
生物
基因
作者
Bingxu Liu,Nathan Greenwood,Julia E. Bonzanini,Amir Motmaen,J. M. Sharp,Chunyu Wang,Gian Marco Visani,Dionne Vafeados,Nicole Roullier,Armita Nourmohammad,K. Christopher García,Bingxu Liu
标识
DOI:10.1101/2024.11.28.625793
摘要
Abstract Class I MHC molecules present peptides derived from intracellular antigens on the cell surface for immune surveillance, and specific targeting of these peptide-MHC (pMHC) complexes could have considerable utility for treating diseases. Such targeting is challenging as it requires readout of the few outward facing peptide antigen residues and the avoidance of extensive contacts with the MHC carrier which is present on almost all cells. Here we describe the use of deep learning-based protein design tools to de novo design small proteins that arc above the peptide binding groove of pMHC complexes and make extensive contacts with the peptide. We identify specific binders for ten target pMHCs which when displayed on yeast bind the on-target pMHC tetramer but not closely related peptides. For five targets, incorporation of designs into chimeric antigen receptors leads to T-cell activation by the cognate pMHC complexes well above the background from complexes with peptides derived from proteome. Our approach can generate high specificity binders starting from either experimental or predicted structures of the target pMHC complexes, and should be widely useful for both protein and cell based pMHC targeting.
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