Role of mucosal-associated invariant T cells in coronavirus disease 2019 vaccine immunogenicity

IF 5.7 2区 医学 Q1 VIROLOGY
Ali Amini , Paul Klenerman , Nicholas M Provine
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引用次数: 0

Abstract

Mucosal-associated invariant T (MAIT) cells are an unconventional T cell population that are highly abundant in humans. They possess a semi-invariant T cell receptor (TCR) that recognises microbial metabolites formed during riboflavin biosynthesis, presented on a nonpolymorphic MHC-like molecule MR1. MAIT cells possess an array of effector functions, including type 1, type 17, and tissue repair activity. Deployment of these functions depends on the stimuli they receive through their TCR and/or cytokine receptors. Strong cytokine signalling, such as in response to vaccination, can bypass TCR triggering and provokes a strong proinflammatory response. Although data are still emerging, multiple aspects of MAIT cell biology are associated with modulation of immunity induced by the coronavirus disease 2019 mRNA and adenovirus vector vaccines. In this review, we will address how MAIT cells may play a role in immunogenicity of vaccines against severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) and how these cells can be harnessed as cellular adjuvants.

粘膜相关不变 T 细胞在 2019 年冠状病毒疾病疫苗免疫原性中的作用
粘膜相关不变性 T 细胞(MAIT)是一种非常规的 T 细胞群,在人体内含量很高。它们拥有一种半不变性 T 细胞受体 (TCR),能识别核黄素生物合成过程中形成的微生物代谢物,这些代谢物呈现在非多态性 MHC 类分子 MR1 上。MAIT 细胞具有一系列效应功能,包括 1 型、17 型和组织修复活性。这些功能的发挥取决于它们通过 TCR 和/或细胞因子受体接收到的刺激。强烈的细胞因子信号(如疫苗接种反应)可绕过 TCR 触发,引发强烈的促炎反应。尽管数据仍在不断涌现,但 MAIT 细胞生物学的多个方面都与 2019 年冠状病毒病 mRNA 和腺病毒载体疫苗诱导的免疫调节有关。在本综述中,我们将讨论 MAIT 细胞如何在严重急性呼吸系统综合征冠状病毒 2(SARS-CoV-2)疫苗的免疫原性中发挥作用,以及如何利用这些细胞作为细胞佐剂。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
11.80
自引率
5.10%
发文量
76
审稿时长
83 days
期刊介绍: Current Opinion in Virology (COVIRO) is a systematic review journal that aims to provide specialists with a unique and educational platform to keep up to date with the expanding volume of information published in the field of virology. It publishes 6 issues per year covering the following 11 sections, each of which is reviewed once a year: Emerging viruses: interspecies transmission; Viral immunology; Viral pathogenesis; Preventive and therapeutic vaccines; Antiviral strategies; Virus structure and expression; Animal models for viral diseases; Engineering for viral resistance; Viruses and cancer; Virus vector interactions. There is also a section that changes every year to reflect hot topics in the field.
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