Live Cell Reporter Systems for Positive-Sense Single Strand RNA Viruses

Ren, Linzhu; Peng, Zhiyuan; Chen, Xinrong; Ouyang, Hongsheng

doi:10.1007/s12010-015-1968-5

Cited by 6 publications

(8 citation statements)

References 90 publications

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“…This approach could facilitate the real-time visualization and monitoring of viral replication, thereby providing valuable insights into the viral life cycle and pathogenesis. 30 In conclusion, the ISA method is a remarkably straightforward approach to reverse the genetics of the dengue virus and requires only three subgenomic fragments. In addition, its capacity to…”

Section: Discussionmentioning

confidence: 98%

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Efficient reverse genetics approach involving infectious subgenomic amplicon for engineering dengue virus

Park

Lee

Yoo

et al. 2023

Journal of Medical Virology

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Dengue virus, which belongs to the Flaviviridae family, can induce a range of symptoms from mild to severe, including dengue fever, dengue hemorrhagic fever, and dengue shock syndrome. While infectious cloning technology is a useful tool for understanding viral pathogenesis and symptoms, it exhibits limitations when constructing the entire Flavivirus genome. The instability and toxicity of the genome to bacteria make its full‐length construction in bacterial vectors a time‐consuming and laborious process. To address these challenges, we employed the modified infectious subgenomic amplicon (ISA) method in this study, which can potentially be a superior tool for reverse genetic studies on the dengue virus. Using ISA, we generated recombinant dengue viruses de novo and validated their robust replication in both human and insect cell lines, which was comparable to that of the original strains. Moreover, the efficiency of ISA in genetically modifying the dengue virus was elucidated by successfully inserting the gene for green fluorescence protein into the genome of dengue virus serotype 4. Overall, this study highlighted the effectiveness of ISA for genetically engineering the dengue virus and provided a technical basis for a convenient reverse genetics system that could expedite investigations into the dengue virus.

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Section: Discussionmentioning

confidence: 98%

“…The simple and efficient design of the ISA method makes it an ideal choice for the production of vaccine strains, chimeric viruses, and recombinant viruses. This approach could facilitate the real‐time visualization and monitoring of viral replication, thereby providing valuable insights into the viral life cycle and pathogenesis 30 …”

Section: Discussionmentioning

confidence: 99%

Efficient reverse genetics approach involving infectious subgenomic amplicon for engineering dengue virus

Park

Lee

Yoo

et al. 2023

Journal of Medical Virology

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show abstract

“…In recent decades, significant advancements in reverse genetics have facilitated the creation of replicon-based or reporter virus systems for a wide range of RNA viruses, including HCV, SARS-CoV-2, DENV, WNV, ZIKV, EV71, HEV, CHIKV, and many others. 21,24,25 These reporter viruses have become invaluable tools in antiviral screening assays. They play a pivotal role in identifying potential antiviral compounds, evaluating their effectiveness, and gaining insights into their mechanisms of action.…”

Section: Discussionmentioning

confidence: 99%

Novel antiviral discoveries for Japanese encephalitis virus infections through reporter virus‐based high‐throughput screening

Yin,

Yang,

Xiao

et al. 2024

Journal of Medical Virology

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Japanese encephalitis (JE) caused by JE virus (JEV), remains a global public health concern. Currently, there is no specific antiviral drug approved for the treatment of JE. While vaccines are available for prevention, they may not cover all at‐risk populations. This underscores the urgent need for prophylaxis and potent anti‐JEV drugs. In this context, a high‐content JEV reporter system expressing Nanoluciferase (Nluc) was developed and utilized for a high‐throughput screening (HTS) of a commercial antiviral library to identify potential JEV drug candidates. Remarkably, this screening process led to the discovery of five drugs with outstanding antiviral activity. Further mechanism of action analysis revealed that cepharanthine, an old clinically approved drug, directly inhibited virus replication by blocking GTP binding to the JEV RNA‐dependent RNA polymerase. Additionally, treatment with cepharanthine in mice models alleviated JEV infection. These findings warrant further investigation into the potential anti‐JEV activity of cepharanthine as a new therapeutic approach for the treatment of JEV infection. The HTS method employed here proves to be an accurate and convenient approach that facilitates the rapid development of antiviral drugs.

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“…Luciferase-based reporter assay systems remain a key tool for analyzing gene expression in a wide variety of organisms; viruses are no exceptions. Meanwhile, for positive-sense RNA viruses, the introduction of the single sub-genomic reporter RNA template into cells is sufficient for the expression of reporter genes, but for negative-sense RNA viruses, RNP-associated viral proteins need to be synthesized along with the reporter RNA to reconstitute complete RNPs, which then leads to the expression of the reporter enzyme as a proxy of viral genes (Lutz et al, 2005 ; Su et al, 2015 ; Ren et al, 2016 ). This is why, successful reconstruction of reporter viral RNPs require extensive cloning of multiple RNA and protein expressing constructs, the standardization of their expression in correct stoichiometric ratios, and the optimization of other crucial parameters like time, temperature, etc.…”

Section: Discussionmentioning

confidence: 99%

A Comprehensive Roadmap Towards the Generation of an Influenza B Reporter Assay Using a Single DNA Polymerase-Based Cloning of the Reporter RNA Construct

2022

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The mini-genome reporter assay is a key tool for conducting RNA virus research. However, procedural complications and the lack of adequate literature pose a major challenge in developing these assay systems. Here, we present a novel, yet generic and simple, cloning strategy for the construction of an influenza B virus reporter RNA template and describe an extensive standardization of the reporter RNP/polymerase activity assay for monitoring viral RNA synthesis in an infection-free setting. Using this assay system, we showed for the first time the effect of viral protein NS1 and host protein kinase C delta (PKCD) on influenza B virus RNA synthesis. In addition, the assay system showed promising results in evaluating the efficacy of antiviral drugs targeting viral RNA synthesis and virus propagation. Together, this work offers a detailed protocol for the standardization of the influenza virus minigenome assay and an excellent tool for screening of host factors and antivirals in a fast, user-friendly, and high-throughput manner.

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Live Cell Reporter Systems for Positive-Sense Single Strand RNA Viruses

Cited by 6 publications

References 90 publications

Efficient reverse genetics approach involving infectious subgenomic amplicon for engineering dengue virus

Efficient reverse genetics approach involving infectious subgenomic amplicon for engineering dengue virus

Novel antiviral discoveries for Japanese encephalitis virus infections through reporter virus‐based high‐throughput screening

A Comprehensive Roadmap Towards the Generation of an Influenza B Reporter Assay Using a Single DNA Polymerase-Based Cloning of the Reporter RNA Construct

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