通过配体交换生成肽MHC I类单体和多聚体。

Generation of peptide MHC class I monomers and multimers through ligand exchange.

作者信息

Toebes Mireille, Rodenko Boris, Ovaa Huib, Schumacher Ton N M

机构信息

The Netherlands Cancer Institute, Amsterdam, The Netherlands.

出版信息

Curr Protoc Immunol. 2009 Nov;Chapter 18:18.16.1-18.16.20. doi: 10.1002/0471142735.im1816s87.

DOI:10.1002/0471142735.im1816s87

PMID:19918947

Abstract

The recognition of defined antigen-MHC complexes by antigen-specific T cells forms the molecular basis of T cell immunity. It has been shown that fluorescently labeled recombinant MHC tetramers can be utilized to detect antigen-specific T cells by flow cytometry. Since this first description, MHC tetramers and other types of MHC multimers have become a core tool to monitor the development of disease- and therapy-induced antigen-specific T cell responses both in humans and in animal model systems. This unit describes a set of protocols that transform classical MHC multimer technology into a high-throughput platform, allowing one to produce large collections of MHC class I molecules charged with different peptides. This technology is based on the development of conditional MHC ligands that can be triggered to self-destruct while in the MHC-bound state.

摘要

抗原特异性T细胞对特定抗原-MHC复合物的识别构成了T细胞免疫的分子基础。研究表明，荧光标记的重组MHC四聚体可用于通过流式细胞术检测抗原特异性T细胞。自首次描述以来，MHC四聚体和其他类型的MHC多聚体已成为监测人类和动物模型系统中疾病和治疗诱导的抗原特异性T细胞反应发展的核心工具。本单元描述了一套方案，可将经典的MHC多聚体技术转化为高通量平台，从而能够产生大量负载不同肽段的MHC I类分子。该技术基于条件性MHC配体的开发，这些配体在与MHC结合的状态下可被触发自毁。

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通过配体交换生成肽MHC I类单体和多聚体。

Generation of peptide MHC class I monomers and multimers through ligand exchange.

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