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抑制嘧啶生物合成通过核苷酸池耗竭和先天免疫反应的激活来损害埃博拉病毒复制。

Inhibiting pyrimidine biosynthesis impairs Ebola virus replication through depletion of nucleoside pools and activation of innate immune responses.

机构信息

Center for Microbial Pathogenesis, Institute for Biomedical Sciences, Georgia State University, Atlanta, GA, USA.

Department of Biochemistry, UT Southwestern Medical Center, Dallas, TX, 75390, USA.

出版信息

Antiviral Res. 2018 Oct;158:288-302. doi: 10.1016/j.antiviral.2018.08.012. Epub 2018 Aug 23.

DOI:10.1016/j.antiviral.2018.08.012
PMID:30144461
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6436837/
Abstract

Specific host pathways that may be targeted therapeutically to inhibit the replication of Ebola virus (EBOV) and other emerging viruses remain incompletely defined. A screen of 200,000 compounds for inhibition of an EBOV minigenome (MG) assay that measures the function of the viral polymerase complex identified as hits several compounds with an amino-tetrahydrocarbazole scaffold. This scaffold was structurally similar to GSK983, a compound previously described as having broad-spectrum antiviral activity due to its impairing de novo pyrimidine biosynthesis through inhibition of dihydroorotate dehydrogenase (DHODH). We generated compound SW835, the racemic version of GSK983 and demonstrated that SW835 and brequinar, another DHODH inhibitor, potently inhibit the MG assay and the replication of EBOV, vesicular stomatitis virus (VSV) and Zika (ZIKV) in vitro. Nucleoside and deoxynucleoside supplementation studies demonstrated that depletion of pyrimidine pools contributes to antiviral activity of these compounds. As reported for other DHODH inhibitors, SW835 and brequinar also induced expression of interferon stimulated genes (ISGs). ISG induction was demonstrated to occur without production of IFNα/β and independently of the IFNα receptor and was not blocked by EBOV-encoded suppressors of IFN signaling pathways. Furthermore, we demonstrated that transcription factor IRF1 is required for this ISG induction, and that IRF1 induction requires the DNA damage response kinase ATM. Therefore, de novo pyrimidine biosynthesis is critical for the replication of EBOV and other RNA viruses and inhibition of this pathway activates an ATM and IRF1-dependent innate immune response that subverts EBOV immune evasion functions.

摘要

针对埃博拉病毒(EBOV)和其他新兴病毒的复制,特定的宿主途径可能是治疗的目标,但仍不完全明确。对 20 万种化合物进行筛选,以抑制埃博拉病毒小基因(MG)测定法,该测定法可衡量病毒聚合酶复合物的功能,结果发现了几种具有氨基四氢咔唑骨架的化合物。该骨架结构与 GSK983 相似,GSK983 是一种先前被描述为具有广谱抗病毒活性的化合物,因为它通过抑制二氢乳清酸脱氢酶(DHODH)来破坏从头嘧啶生物合成。我们生成了 GSK983 的外消旋版本化合物 SW835,并证明 SW835 和另一种 DHODH 抑制剂布雷奎纳(brequinar)可有效抑制 MG 测定法以及 EBOV、水疱性口炎病毒(VSV)和寨卡病毒(ZIKV)在体外的复制。核苷和脱氧核苷补充研究表明,嘧啶池的耗尽有助于这些化合物的抗病毒活性。与其他 DHODH 抑制剂一样,SW835 和布雷奎纳也诱导了干扰素刺激基因(ISGs)的表达。已经证明,ISG 的诱导发生在没有 IFNα/β产生的情况下,并且独立于 IFNα 受体,并且不受 EBOV 编码的 IFN 信号通路抑制剂的阻断。此外,我们证明转录因子 IRF1 是这种 ISG 诱导所必需的,并且 IRF1 诱导需要 DNA 损伤反应激酶 ATM。因此,从头嘧啶生物合成对于 EBOV 和其他 RNA 病毒的复制至关重要,并且抑制该途径会激活 ATM 和 IRF1 依赖性先天免疫反应,从而破坏 EBOV 的免疫逃逸功能。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4547/6436837/ae36e228a94d/nihms-1506677-f0010.jpg
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