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1
Identification of NMS-873, an allosteric and specific p97 inhibitor, as a broad antiviral against both influenza A and B viruses.鉴定 NMS-873 为一种别构和特异性的 p97 抑制剂,作为一种广谱抗流感 A 和 B 病毒的药物。
Eur J Pharm Sci. 2019 May 15;133:86-94. doi: 10.1016/j.ejps.2019.03.020. Epub 2019 Mar 28.
2
Potent and broad-spectrum cycloheptathiophene-3-carboxamide compounds that target the PA-PB1 interaction of influenza virus RNA polymerase and possess a high barrier to drug resistance.具有强大和广谱活性的环庚三噻吩-3-甲酰胺化合物,靶向流感病毒 RNA 聚合酶的 PA-PB1 相互作用,并且具有较高的耐药屏障。
Antiviral Res. 2019 May;165:55-64. doi: 10.1016/j.antiviral.2019.03.003. Epub 2019 Mar 15.
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Baloxavir Marboxil for Uncomplicated Influenza in Adults and Adolescents.巴洛沙韦玛波西利治疗成人和青少年单纯性流感。
N Engl J Med. 2018 Sep 6;379(10):913-923. doi: 10.1056/NEJMoa1716197.
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Synthesis and biological evaluation of a library of hybrid derivatives as inhibitors of influenza virus PA-PB1 interaction.合成和评估流感病毒 PA-PB1 相互作用抑制剂的混合衍生物文库。
Eur J Med Chem. 2018 Sep 5;157:743-758. doi: 10.1016/j.ejmech.2018.08.032. Epub 2018 Aug 13.
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Focusing on the Influenza Virus Polymerase Complex: Recent Progress in Drug Discovery and Assay Development.聚焦流感病毒聚合酶复合物:药物发现和检测方法开发的最新进展。
Curr Med Chem. 2019;26(13):2243-2263. doi: 10.2174/0929867325666180706112940.
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Exploring Ugi-Azide Four-Component Reaction Products for Broad-Spectrum Influenza Antivirals with a High Genetic Barrier to Drug Resistance.探索具有高遗传耐药屏障的广谱流感抗病毒药物的 Ugi-叠氮化物四组分反应产物。
Sci Rep. 2018 Mar 15;8(1):4653. doi: 10.1038/s41598-018-22875-9.
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Inhibitors of Influenza A Virus Polymerase.甲型流感病毒聚合酶抑制剂
ACS Infect Dis. 2018 Mar 9;4(3):218-223. doi: 10.1021/acsinfecdis.7b00265. Epub 2018 Jan 22.
8
The Next Wave of Influenza Drugs.下一代流感药物。
ACS Infect Dis. 2017 Oct 13;3(10):691-694. doi: 10.1021/acsinfecdis.7b00142. Epub 2017 Sep 11.
9
Structure-based drug discovery for combating influenza virus by targeting the PA-PB1 interaction.基于结构的药物发现:针对 PA-PB1 相互作用靶向流感病毒
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Global update on the susceptibility of human influenza viruses to neuraminidase inhibitors, 2015-2016.全球 2015-2016 年人类流感病毒对神经氨酸酶抑制剂的敏感性更新。
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基于分割荧光素酶互补的测定法发现流感聚合酶 PA-PB1 相互作用抑制剂。

Discovery of Influenza Polymerase PA-PB1 Interaction Inhibitors Using an Split-Luciferase Complementation-Based Assay.

机构信息

Department of Pharmacology and Toxicology, College of Pharmacy , The University of Arizona , Tucson , Arizona 85721 , United States.

出版信息

ACS Chem Biol. 2020 Jan 17;15(1):74-82. doi: 10.1021/acschembio.9b00552. Epub 2019 Nov 21.

DOI:10.1021/acschembio.9b00552
PMID:31714745
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7028398/
Abstract

The limited therapeutic options and increasing drug-resistance call for next-generation influenza antivirals. Due to the essential function in viral replication and high sequence conservation among influenza viruses, influenza polymerase PA-PB1 protein-protein interaction becomes an attractive drug target. Here, we developed an split luciferase complementation-based assay to speed up screening of PA-PB1 interaction inhibitors. By screening 10,000 compounds, we identified two PA-PB1 interaction inhibitors, R160792 and R151785, with potent and broad-spectrum antiviral activity against a panel of influenza A and B viruses, including amantadine-, oseltamivir-, or dual resistant strains. Further mechanistic study reveals that R151785 inhibits PA nuclear localization, reduces the levels of viral RNAs and proteins, and inhibits viral replication at the intermediate stage, all of which are in line with its antiviral mechanism of action. Overall, we developed a robust high throughput-screening assay for screening broad-spectrum influenza antivirals targeting PA-PB1 interaction and identified R151785 as a promising antiviral drug candidate.

摘要

由于治疗选择有限且耐药性不断增加,因此需要开发下一代流感抗病毒药物。由于在病毒复制过程中具有重要功能,并且流感病毒之间具有高度的序列保守性,因此流感聚合酶 PA-PB1 蛋白-蛋白相互作用成为有吸引力的药物靶标。在这里,我们开发了一种基于荧光素酶互补的拆分测定法,以加快筛选 PA-PB1 相互作用抑制剂。通过筛选 10,000 种化合物,我们鉴定出两种 PA-PB1 相互作用抑制剂 R160792 和 R151785,它们对一系列甲型和乙型流感病毒具有强大且广谱的抗病毒活性,包括金刚烷胺、奥司他韦或双重耐药株。进一步的机制研究表明,R151785 抑制 PA 的核定位,降低病毒 RNA 和蛋白质的水平,并在中间阶段抑制病毒复制,所有这些都与其抗病毒作用机制一致。总的来说,我们开发了一种稳健的高通量筛选测定法,用于筛选针对 PA-PB1 相互作用的广谱流感抗病毒药物,并鉴定出 R151785 是一种有前途的抗病毒药物候选物。