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Literature DB >> 30930289

Identification of NMS-873, an allosteric and specific p97 inhibitor, as a broad antiviral against both influenza A and B viruses.

Jiantao Zhang¹, Yanmei Hu¹, Raymond Hau¹, Rami Musharrafieh², Chunlong Ma¹, Xu Zhou¹, Yin Chen¹, Jun Wang³.

Abstract

Influenza virus infection causes substantial morbidity and mortality worldwide. The limited efficacy of oseltamivir in delayed treatment, coupled with the increasing incidences of oseltamivir-resistant strains, calls for next-generation of antiviral drugs. In this study, we discovered NMS-873, an allosteric and specific p97 inhibitor, as a broad-spectrum influenza antiviral through forward chemical genomics screening. NMS-873 shows potent antiviral activity with low-nanomolar EC50s against multiple human influenza A and B viruses, including adamantine-, oseltamivir-, or double resistant strains. Our data further showed that silencing of p97 via siRNA or inhibiting p97 by NMS-873 both inhibited virus replication and retained viral ribonucleoproteins (vRNPs) in the nucleus, confirming p97 is the drug target. Mechanistic studies have shown that the nuclear retention of vRNP with NMS-873 treatment is a combined result of two effects: the reduced viral M1 protein level (indirect effect), and the disruption of p97-NP interactions (direct effect). Taken together, our results suggest that p97 could be a novel antiviral target and its inhibitor, NMS-873, is a promising antiviral drug candidate.

Entities: CellLine Chemical Disease Gene Mutation Species

Keywords: Broad-spectrum antiviral; Host-targeting antiviral; Influenza virus; NMS-873; p97

Mesh：

Substances：

Year: 2019 PMID： 30930289 PMCID： PMC6482079 DOI： 10.1016/j.ejps.2019.03.020

Source DB: PubMed Journal: Eur J Pharm Sci ISSN： 0928-0987 Impact factor: 4.384

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1. Updating the accounts: global mortality of the 1918-1920 "Spanish" influenza pandemic.

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4. Tetrazolium (MTT) assay for cellular viability and activity.

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