T细胞受体工程淋巴细胞用于癌症治疗

Q2 Immunology and Microbiology Current Protocols in Immunology Pub Date : 2020-05-20 DOI:10.1002/cpim.97
Meagan R. Rollins, Ellen J. Spartz, Ingunn M. Stromnes
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引用次数: 6

摘要

T淋巴细胞具有特异性识别和清除靶细胞的能力。生理抗原识别是由T细胞受体(TCR)介导的,它是一种α - β异源二聚体,由随机重排的V、D和J基因的产物组成。T细胞精致的特异性和功能性可以用于癌症治疗:具体来说,表达肿瘤反应性tcr的T细胞过继转移可以诱导晚期癌症患者实体瘤的消退。然而,肿瘤抗原特异性TCR的分离和表达是一个高度复杂的过程,需要确定免疫原性表位,确保人类细胞具有正确的单倍型,进行艰苦的T细胞扩增过程,并进行下游TCR测序和克隆。单细胞测序的最新进展已经开始简化这一过程。该方案综合并扩展了产生、分离和设计具有肿瘤反应性tcr的人类T细胞的方法,用于过继细胞治疗。虽然这个过程可能比使用嵌合抗原受体(car)进行工程的替代策略更加艰巨,但使用tcr靶向细胞内蛋白质的能力大大增加了可以安全靶向的抗原类型。©2020 Wiley期刊公司。基本方案1:从单核细胞产生人自体树突状细胞基本方案2:基于单细胞VDJ测序的抗原特异性T细胞受体的体外克隆基本方案3:基于单细胞VDJ测序的抗原特异性T细胞受体的克隆基本方案4:T细胞受体在体外表达和功能的验证基本方案5:T细胞受体转导T细胞和人T细胞克隆的快速扩增
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T Cell Receptor Engineered Lymphocytes for Cancer Therapy

T lymphocytes are capable of specific recognition and elimination of target cells. Physiological antigen recognition is mediated by the T cell receptor (TCR), which is an alpha beta heterodimer comprising the products of randomly rearranged V, D, and J genes. The exquisite specificity and functionality of T cells can be leveraged for cancer therapy: specifically, the adoptive transfer of T cells that express tumor-reactive TCRs can induce regression of solid tumors in patients with advanced cancer. However, the isolation and expression of a tumor antigen-specific TCRs is a highly involved process that requires identifying an immunogenic epitope, ensuring human cells are of the correct haplotype, performing a laborious T cell expansion process, and carrying out downstream TCR sequencing and cloning. Recent advances in single-cell sequencing have begun to streamline this process. This protocol synthesizes and expands upon methodologies to generate, isolate, and engineer human T cells with tumor-reactive TCRs for adoptive cell therapy. Though this process is perhaps more arduous than the alternative strategy of using chimeric antigen receptors (CARs) for engineering, the ability to target intracellular proteins using TCRs substantially increases the types of antigens that can be safely targeted. © 2020 Wiley Periodicals LLC.

Basic Protocol 1: Generation of human autologous dendritic cells from monocytes

Basic Protocol 2: In vitro priming and expansion of human antigen-specific T cells

Basic Protocol 3: Cloning of antigen-specific T cell receptors based on single-cell VDJ sequencing data

Basic Protocol 4: Validation of T cell receptor expression and functionality in vitro

Basic Protocol 5: Rapid expansion of T cell receptor–transduced T cells and human T cell clones

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Current Protocols in Immunology
Current Protocols in Immunology Immunology and Microbiology-Immunology
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