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硝唑尼特通过靶向融合蛋白折叠抑制副粘病毒复制:糖蛋白特异性硫醇氧化还原酶 ERp57 的作用。

Nitazoxanide inhibits paramyxovirus replication by targeting the Fusion protein folding: role of glycoprotein-specific thiol oxidoreductase ERp57.

机构信息

Department of Biology, University of Rome Tor Vergata, Rome, Italy.

Colosseum Combinatorial Chemistry Centre for Technology, University of Rome Tor Vergata Science Park, Rome, Italy.

出版信息

Sci Rep. 2018 Jul 11;8(1):10425. doi: 10.1038/s41598-018-28172-9.

Abstract

Paramyxoviridae, a large family of enveloped viruses harboring a nonsegmented negative-sense RNA genome, include important human pathogens as measles, mumps, respiratory syncytial virus (RSV), parainfluenza viruses, and henipaviruses, which cause some of the deadliest emerging zoonoses. There is no effective antiviral chemotherapy for most of these pathogens. Paramyxoviruses evolved a sophisticated membrane-fusion machine consisting of receptor-binding proteins and the fusion F-protein, critical for virus infectivity. Herein we identify the antiprotozoal/antimicrobial nitazoxanide as a potential anti-paramyxovirus drug targeting the F-protein. We show that nitazoxanide and its circulating-metabolite tizoxanide act at post-entry level by provoking Sendai virus and RSV F-protein aggregate formation, halting F-trafficking to the host plasma membrane. F-protein folding depends on ER-resident glycoprotein-specific thiol-oxidoreductase ERp57 for correct disulfide-bond architecture. We found that tizoxanide behaves as an ERp57 non-competitive inhibitor; the putative drug binding-site was located at the ERp57-b/b' non-catalytic domains interface. ERp57-silencing mimicked thiazolide-induced F-protein alterations, suggesting an important role of this foldase in thiazolides anti-paramyxovirus activity. Nitazoxanide is used in the clinic as a safe and effective antiprotozoal/antimicrobial drug; its antiviral activity was shown in patients infected with hepatitis-C virus, rotavirus and influenza viruses. Our results now suggest that nitazoxanide may be effective also against paramyxovirus infection.

摘要

副黏液病毒科是一类包膜病毒,其基因组为不分节的负义 RNA,包含麻疹、腮腺炎、呼吸道合胞病毒(RSV)、副流感病毒和亨德拉尼帕病毒等重要的人类病原体,这些病原体引发了一些最致命的新兴人畜共患病。大多数这些病原体都没有有效的抗病毒化学疗法。副黏液病毒进化出了一种复杂的膜融合机器,由受体结合蛋白和融合 F 蛋白组成,这对于病毒的感染力至关重要。在此,我们鉴定出抗原虫/抗菌的硝唑尼特作为一种潜在的抗副黏液病毒药物,其靶点是 F 蛋白。我们表明,硝唑尼特及其循环代谢物替硝唑通过引发仙台病毒和 RSV F 蛋白聚集来发挥作用,阻止 F 蛋白向宿主质膜的转运。F 蛋白的折叠依赖于内质网驻留的糖蛋白特异性硫醇-氧化还原酶 ERp57 来正确构建二硫键结构。我们发现替硝唑是一种 ERp57 的非竞争性抑制剂;推测的药物结合位点位于 ERp57-b/b'非催化结构域界面。ERp57 沉默模拟了噻唑烷酮诱导的 F 蛋白改变,表明这种折叠酶在噻唑烷酮类抗副黏液病毒活性中发挥着重要作用。硝唑尼特在临床上用作安全有效的抗原虫/抗菌药物;其抗病毒活性已在感染丙型肝炎病毒、轮状病毒和流感病毒的患者中得到证实。我们的结果表明,硝唑尼特也可能对副黏液病毒感染有效。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b2df/6041319/92d6226169da/41598_2018_28172_Fig1_HTML.jpg

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