Transgenic murine models for the study of drug hypersensitivity reactions linked to HLA-I molecules.

IF 3 4区 医学 Q2 ALLERGY
Montserrat Puig, Michael A Norcross
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Abstract

Purpose of review: Immune-mediated drug hypersensitivity reactions (DHRs) can be life-threatening and an impediment to drug development. Mechanism of disease studies are difficult to perform in humans. Here we review human leukocyte antigens class I (HLA-I) transgenic murine models and highlight how these systems have helped to elucidate drug-specific and host immune factors that initiate, propagate and control severe drug toxicities to skin and liver.

Recent findings: HLA transgenic mice have been developed and used to study immune-mediated drug reactions in vitro and in vivo . CD8+ T cells from HLA-B∗57:01-expressing mice respond strongly to abacavir (ABC) in vitro but have self-limited responses to drug exposure in vivo . Immune tolerance can be overcome by depleting regulatory T cells (Treg) allowing antigen-presenting dendritic cells to express CD80/86 costimulatory molecules and signal through CD28 on the CD8+ T cell. Depletion of Treg also removes competition for interleukin 2 (IL-2) to allow T cell expansion and differentiation. Fine tuning of responses depends on inhibitory checkpoint molecules such as PD-1. Improved mouse models express only HLA in the absence of PD-1. These models show enhanced liver injury to flucloxacillin (FLX) which depends on drug priming, CD4+ T cell depletion, and lack of PD-1 expression. Drug-specific HLA-restricted cytotoxic CD8+ T cells can infiltrate the liver but are suppressed by Kupffer and liver sinusoidal endothelial cells.

Summary: HLA-I transgenic mouse models are now available to study ABC, FLX and carbamazepine-induced adverse reactions. In vivo studies range from characterizing drug-antigen presentation, T cell activation, immune-regulatory molecules and cell-cell interaction pathways that are specifically involved in causing or controlling unwanted DHRs.

Abstract Image

Abstract Image

用于研究与hla - 1分子相关的药物过敏反应的转基因小鼠模型。
综述目的:免疫介导的药物超敏反应(DHRs)可能危及生命并阻碍药物开发。疾病机制的研究很难在人类身上进行。在这里,我们回顾了人类白细胞抗原I类(HLA-I)转基因小鼠模型,并强调这些系统如何帮助阐明药物特异性和宿主免疫因子,这些免疫因子启动、传播和控制严重的药物对皮肤和肝脏的毒性。最近研究发现:HLA转基因小鼠已被开发并用于体外和体内免疫介导的药物反应研究。来自HLA-B∗57:01表达小鼠的CD8+ T细胞在体外对阿巴卡韦(ABC)有强烈反应,但在体内对药物暴露有自限性反应。免疫耐受可以通过消耗调节性T细胞(Treg)来克服,使抗原呈递的树突状细胞表达CD80/86共刺激分子,并通过CD28在CD8+ T细胞上发出信号。Treg的消耗也消除了对白细胞介素2 (IL-2)的竞争,从而允许T细胞扩增和分化。反应的微调取决于抑制检查点分子,如PD-1。改良小鼠模型在PD-1缺失的情况下仅表达HLA。这些模型显示氟氯西林(FLX)的肝损伤增强,这取决于药物启动、CD4+ T细胞耗竭和PD-1表达缺乏。药物特异性hla限制性细胞毒性CD8+ T细胞可浸润肝脏,但被Kupffer和肝窦内皮细胞抑制。摘要:hla - 1转基因小鼠模型目前可用于研究ABC、FLX和卡马西平诱导的不良反应。体内研究范围包括表征药物-抗原呈递、T细胞活化、免疫调节分子和细胞-细胞相互作用途径,这些途径特别涉及引起或控制不需要的dhr。
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来源期刊
CiteScore
5.90
自引率
3.60%
发文量
109
审稿时长
6-12 weeks
期刊介绍: This reader-friendly, bimonthly resource provides a powerful, broad-based perspective on the most important advances from throughout the world literature. Featuring renowned guest editors and focusing exclusively on one to three topics, every issue of Current Opinion in Allergy and Clinical Immunology delivers unvarnished, expert assessments of developments from the previous year. Insightful editorials and on-the-mark invited reviews cover key subjects such as upper airway disease; mechanisms of allergy and adult asthma; paediatric asthma and development of atopy; food and drug allergies; and immunotherapy.
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