Raphaël Jami scite author profile

The SARS-CoV-2 pandemic has reemphasized the urgent need to develop broad-spectrum antiviral therapies. Wedeveloped a computational pipeline that uses scRNA-Seq data to reconstruct the metabolic state of cells and tissuesduring viral infection. Using this pipeline, we investigated the cellular capacity to produce SARS-CoV-2 virions invarious tissues and disease conditions. Subsequently, we expanded our analysis to influenza A and dengue virus andidentified several metabolic targets and their inhibitors for broad-spectrum antiviral treatment. Phenformin, an inhibitorof NADH:ubiquinone oxidoreductase, suppressed SARS-CoV-2 and dengue virus replication. Using Atpenin A5 toblock the succinate dehydrogenase inhibited SARS-CoV-2, dengue virus, influenza A virus and respiratory syncytialvirus with superior therapeutic indices. Thus, our work establishes host metabolism as druggable for broad antiviraltherapy. Moreover, our pipeline, the identified targets, and inhibitors are invaluable tools for pandemic preparedness.

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The C-Terminal Domain of Salmonid Alphavirus Nonstructural Protein 2 (nsP2) Is Essential and Sufficient To Block RIG-I Pathway Induction and Interferon-Mediated Antiviral Response

Jami

Mérour

Bernard

et al. 2021

J Virol

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Salmonid alphavirus (SAV) is an atypical alphavirus, which has a considerable impact on salmon and trout farms. Unlike other alphaviruses such as the chikungunya virus, SAV is transmitted without an arthropod vector, and does not cause cell shut-off during infection. The mechanisms by which SAV escapes the host immune system remain unknown. By studying the role of SAV proteins on the RIG-I signaling cascade, the first line of defense of the immune system during infection, we demonstrated that non-structural protein 2 (nsP2) effectively blocks the induction of type I interferon (IFN). This inhibition, independent of the protease activity carried by nsP2, occurs downstream of IRF3 which is the transcription factor allowing the activation of the IFN promoter and its expression. The inhibitory effect of nsP2 on the RIG-I pathway depends on the localization of nsP2 in the host cell nucleus which is linked to two nuclear localization sequences (NLS) located in its C-terminal part. The C-terminal domain of nsP2 by itself is sufficient and necessary to block IFN induction. Mutation of the NLS of nsP2 is deleterious to the virus. Finally, nsP2 does not interact with IRF3, indicating that its action is possible through a targeted interaction within discrete areas of chromatin, as suggested by its punctate distribution observed in the nucleus. These results therefore demonstrate a major role for nsP2 in the control by SAV of the host cell’s innate immune response. Importance The global consumption of fish continues to rise and the future demand cannot be met by capture fisheries alone due to limited stocks of wild fish. Aquaculture is currently the world’s fastest growing food production sector with an annual growth rate of 6-8 %. Recurrent outbreaks of SAV result in significant economic losses with serious environmental consequences on wild stocks. While the clinical and pathological signs of SAV infection are fairly well known, the molecular mechanisms involved are poorly described. In the present study, we focus on the non-structural protein nsP2 and characterize a specific domain containing nuclear localization sequences that are critical for the inhibition of the host innate immune response mediated by the RIG-I pathway.

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Raphaël Jami

A20 (tnfaip3) is a negative feedback regulator of RIG-I-Mediated IFN induction in teleost

Metabolic Modeling Elucidates Phenformin and Atpenin A5 as Broad-Spectrum Antiviral Drugs

The C-Terminal Domain of Salmonid Alphavirus Nonstructural Protein 2 (nsP2) Is Essential and Sufficient To Block RIG-I Pathway Induction and Interferon-Mediated Antiviral Response

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