寡腺苷酸合成酶样的两面性:有效的抗病毒蛋白和先天免疫的负调节因子

IF 5.7 2区 医学 Q1 VIROLOGY
Viktoria Rex , Markus Stempel , Stephan Halle , Melanie M Brinkmann
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引用次数: 1

摘要

I型干扰素反应对控制病毒感染至关重要,并触发下游靶基因的产生,称为干扰素刺激基因(ISG)。虽然ISG有很多方法可以在病毒复制周期的不同阶段限制病毒,但它们对抑制免疫反应也很重要,以避免在效果旺盛的情况下造成组织损伤。然而,这种对免疫反应的反调节也有其不利之处,即它可以为病毒在宿主中站稳脚跟打开大门。ISG的一个关键家族是寡腺苷酸合成酶(OAS)家族,由DNA传感器cGAS和RNA传感OAS和寡腺苷酸合成酶样(OASL)蛋白组成。OASL蛋白特别令人感兴趣,因为它们在结构上是独特的,在对病毒感染的免疫反应中就像一把双刃剑:它们具有抗病毒作用,主要针对RNA病毒,而大多数DNA病毒都受益于OASL的表达。在这里,我们将来自不同物种的OASL蛋白的这种平衡行为置于聚光灯下,并描绘了它们面对病毒感染的不同面貌。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The two faces of oligoadenylate synthetase-like: effective antiviral protein and negative regulator of innate immunity

The type I interferon response is critical for controlling viral infection and triggers the production of downstream-target genes, termed interferon-stimulated genes (ISGs). While ISGs have a plethora of ways to restrict viruses at different stages of their replication cycle, they are also important to dampen immune responses to avoid tissue damage in the case of exuberant effects. However, this counter regulation of the immune response comes with the downside that it can open a door for viruses to get a foothold in their host. One key family of ISGs is the oligoadenylate synthetase (OAS) family, consisting of the DNA sensor cGAS and the RNA-sensing OAS and oligoadenylate synthetase-like (OASL) proteins. OASL proteins are of particular interest since they are structurally unique and act like a double-edged sword during immune responses to viral infection: they act antiviral, primarily against RNA viruses, whereas most DNA viruses benefit from OASL expression. Here, we put this balancing act of OASL proteins from different species into the spotlight and portray their different faces to viral infections.

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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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