Salzler Robert, DiLillo David J, Saotome Kei, Bray Kevin, Mohrs Katja, Hwang Haun, Cygan Kamil J, Shah Darshit, Rye-Weller Anna, Kundu Kunal, Badithe Ashok, Zhang Xiaoqin, Garnova Elena, Torres Marcela, Dhanik Ankur, Babb Robert, Delfino Frank J, Thwaites Courtney, Dudgeon Drew, Moore Michael J, Meagher Thomas Craig, Decker Corinne E, Owczarek Tomasz, Gleason John A, Yang Xiaoran, Suh David, Lee Wen-Yi, Welsh Richard, MacDonald Douglas, Hansen Johanna, Guo Chunguang, Kirshner Jessica R, Thurston Gavin, Huang Tammy, Franklin Matthew C, Yancopoulos George D, Lin John C, Macdonald Lynn E, Murphy Andrew J, Chen Gang, Olsen Olav, Olson William C
Regeneron Pharmaceuticals, 777 Old Saw Mill River Road, Tarrytown, NY 10591, USA.
Sci Transl Med. 2025 Mar 26;17(791):eado9371. doi: 10.1126/scitranslmed.ado9371.
Monoclonal antibody therapies have transformed the lives of patients across a diverse range of diseases. However, antibodies can usually only access extracellular proteins, including the extracellular portions of membrane proteins that are expressed on the cell surface. In contrast, T cell receptors (TCRs) survey the entire cellular proteome when processed and presented as peptides in association with human leukocyte antigen (pHLA complexes). Antibodies that mimic TCRs by recognizing pHLA complexes have the potential to extend the reach of antibodies to this larger pool of targets and provide increased binding affinity and specificity. A major challenge in developing TCR mimetic (TCRm) antibodies is the limited sequence differences between the target pHLA complex relative to the large global repertoire of pHLA complexes. Here, we provide a comprehensive strategy for generating fully human TCRm antibodies across multiple HLA alleles, beginning with pHLA target discovery and validation and culminating in the engineering of TCRm-based chimeric antigen receptor T cells with potent antitumor activity. By incorporating mass spectrometry, bioinformatic predictions, HLA-humanized mice, antibody screening, and cryo-electron microscopy, we have established a pipeline to identify additional pHLA complex-specific antibodies with therapeutic potential.
单克隆抗体疗法改变了患有各种疾病患者的生活。然而,抗体通常只能作用于细胞外蛋白质,包括细胞表面表达的膜蛋白的细胞外部分。相比之下,T细胞受体(TCR)在与人类白细胞抗原(pHLA复合物)结合加工并呈递为肽时,能够检测整个细胞蛋白质组。通过识别pHLA复合物来模拟TCR的抗体,有可能将抗体的作用范围扩展到这个更大的靶标库,并提供更高的结合亲和力和特异性。开发TCR模拟(TCRm)抗体的一个主要挑战是,相对于庞大的全球pHLA复合物库,目标pHLA复合物之间的序列差异有限。在此,我们提供了一种全面的策略,用于生成针对多种HLA等位基因的完全人源化TCRm抗体,从pHLA靶标的发现和验证开始,最终构建出具有强大抗肿瘤活性的基于TCRm的嵌合抗原受体T细胞。通过整合质谱分析、生物信息学预测、HLA人源化小鼠、抗体筛选和冷冻电子显微镜技术,我们建立了一条管道,以识别具有治疗潜力的其他pHLA复合物特异性抗体。
