Meng Xiaoli, Yerly Daniel, Naisbitt Dean J
MRC Centre for Drug Safety Science, Department of Molecular and Clinical Pharmacology, University of Liverpool, Liverpool, United Kingdom.
Department of Rheumatology, Immunology and Allergology, University Hospital of Bern, Bern, Switzerland.
Curr Opin Allergy Clin Immunol. 2018 Aug;18(4):317-324. doi: 10.1097/ACI.0000000000000458.
Delayed-type or nonimmediate drug hypersensitivity reactions often involve the activation of drug-specific T cells. As such, the molecular initiating event is an interaction between HLA proteins, HLA-binding peptides and the drug. For many years, the formation of covalently modified drug protein adducts was assumed to be a prerequisite for T-cell activation. The purpose of this article is to review recent studies using human PBMC, T-cell lines and clones, which show that drugs are in fact loaded onto HLA molecules in different forms to activate T cells.
We now know that protein-reactive drugs such as β-lactam antibiotics activate T cells via direct noncovalent interactions with HLA or HLA-binding peptides, direct covalent modification of HLA-binding peptides and covalent binding of non-HLA associated proteins. Adducts formed inside and outside of the cells undergo protein processing to generate HLA-binding peptides that are assumed to contain the drug modification. Studies using synthetic stable (e.g. oxypurinol) and reactive (e.g. nitroso sulfamethoxazole) metabolites show that metabolites activate T cells via the same pathways. A variety of drugs with different structural features have also been shown to activate T cells though a direct HLA-binding interaction. Of note, abacavir behaves in an unexpected way, binding deep in the peptide binding cleft of one HLA, selectively activating CD8 T cells.
In-vitro studies have revealed that a number of drug HLA-binding interactions lead to the activation of T cells. These can be categorized according to two hypotheses, namely hapten and pharmacological interactions. As we move forward with the development of diagnostic and predictive T-cell assays, it is critical to reach a consensus that direct drug HLA binding and the formation of drug protein adducts are important events for T-cell activation.
迟发型或非即刻型药物超敏反应通常涉及药物特异性T细胞的激活。因此,分子起始事件是HLA蛋白、HLA结合肽与药物之间的相互作用。多年来,共价修饰的药物蛋白加合物的形成被认为是T细胞激活的先决条件。本文旨在综述近期使用人外周血单个核细胞、T细胞系和克隆进行的研究,这些研究表明药物实际上以不同形式加载到HLA分子上以激活T细胞。
我们现在知道,蛋白质反应性药物如β-内酰胺类抗生素通过与HLA或HLA结合肽的直接非共价相互作用、HLA结合肽的直接共价修饰以及非HLA相关蛋白的共价结合来激活T细胞。在细胞内外形成的加合物经过蛋白质加工以产生假定含有药物修饰的HLA结合肽。使用合成稳定(如氧嘌呤醇)和反应性(如亚硝基磺胺甲恶唑)代谢物的研究表明,代谢物通过相同途径激活T细胞。各种具有不同结构特征的药物也已被证明通过直接的HLA结合相互作用激活T细胞。值得注意的是,阿巴卡韦的行为出人意料,它结合在一种HLA的肽结合裂隙深处,选择性激活CD8 T细胞。
体外研究表明,许多药物与HLA的结合相互作用会导致T细胞激活。这些可以根据两种假说来分类,即半抗原和药理相互作用。随着我们推进诊断和预测性T细胞检测方法的开发,至关重要的是要达成共识,即药物与HLA的直接结合以及药物蛋白加合物的形成是T细胞激活的重要事件。
