CRISPR activation as a platform to identify interferon stimulated genes with anti-viral function.

IF 2.8 4区 医学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY
Innate Immunity Pub Date : 2024-02-01 Epub Date: 2024-01-23 DOI:10.1177/17534259231225611
Emily N Kirby, Xavier B Montin, Timothy P Allen, Jaslan Densumite, Brooke N Trowbridge, Michael R Beard
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引用次数: 0

Abstract

Interferon Stimulated Gene (ISG) expression plays a key role in the control of viral replication and development of a robust adaptive response. Understanding this dynamic relationship between the pathogen and host is critical to our understanding of viral life-cycles and development of potential novel anti-viral strategies. Traditionally, plasmid based exogenous prompter driven expression of ISGs has been used to investigate anti-viral ISG function, however there are deficiencies in this approach. To overcome this, we investigated the utility of CRISPR activation (CRISPRa), which allows for targeted transcriptional activation of a gene from its endogenous promoter. Using the CRISPRa-SAM system to induce targeted expression of a panel of anti-viral ISGs we showed robust induction of mRNA and protein expression. We then employed our CRISPRa-SAM ISG panel in several antiviral screen formats to test for the ability of ISGs to prevent viral induced cytopathic cell death (CPE) and replication of Dengue Virus (DENV), Zika Virus (ZIKV), West Nile Virus Kunjin (WNVKUN), Hepatitis A Virus (HAV) and Human Coronavirus 229E (HCoV-229E). Our CRISPRa approach confirmed the anti-viral activity of ISGs like IFI6, IFNβ and IFNλ2 that prevented viral induced CPE, which was supported by high-content immunofluorescence imaging analysis. This work highlights CRISPRa as a rapid, agile, and powerful methodology to identify and characterise ISGs and viral restriction factors.

将 CRISPR 激活作为识别具有抗病毒功能的干扰素刺激基因的平台。
干扰素刺激基因(ISG)的表达在控制病毒复制和发展强大的适应性反应中起着关键作用。了解病原体与宿主之间的这种动态关系对于我们了解病毒生命周期和开发潜在的新型抗病毒策略至关重要。传统上,基于质粒的 ISG 外源启动子驱动表达被用于研究 ISG 的抗病毒功能,但这种方法存在缺陷。为了克服这一问题,我们研究了 CRISPR 激活(CRISPRa)的效用,它可以从基因的内源启动子有针对性地激活基因的转录。利用 CRISPRa-SAM 系统诱导抗病毒 ISGs 的靶向表达,我们发现 mRNA 和蛋白质表达的诱导作用很强。然后,我们在几种抗病毒筛选格式中使用了我们的 CRISPRa-SAM ISG 小组,以测试 ISGs 预防病毒诱导的细胞病理死亡(CPE)和登革病毒(DENV)、寨卡病毒(ZIKV)、西尼罗河病毒昆津(WNVKUN)、甲型肝炎病毒(HAV)和人类冠状病毒 229E(HCoV-229E)复制的能力。我们的CRISPRa方法证实了IFI6、IFNβ和IFNλ2等ISGs的抗病毒活性,这些ISGs可预防病毒诱导的CPE,高含量免疫荧光成像分析也支持了这一点。这项工作凸显了 CRISPRa 是一种快速、灵活、强大的方法,可用于鉴定和描述 ISGs 和病毒限制因子。
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
Innate Immunity
Innate Immunity 生物-免疫学
CiteScore
7.20
自引率
0.00%
发文量
20
审稿时长
6-12 weeks
期刊介绍: Innate Immunity is a highly ranked, peer-reviewed scholarly journal and is the official journal of the International Endotoxin & Innate Immunity Society (IEIIS). The journal welcomes manuscripts from researchers actively working on all aspects of innate immunity including biologically active bacterial, viral, fungal, parasitic, and plant components, as well as relevant cells, their receptors, signaling pathways, and induced mediators. The aim of the Journal is to provide a single, interdisciplinary forum for the dissemination of new information on innate immunity in humans, animals, and plants to researchers. The Journal creates a vehicle for the publication of articles encompassing all areas of research, basic, applied, and clinical. The subject areas of interest include, but are not limited to, research in biochemistry, biophysics, cell biology, chemistry, clinical medicine, immunology, infectious disease, microbiology, molecular biology, and pharmacology.
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