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Itaconate and derivatives reduce interferon responses and inflammation in influenza A virus infection

by Ebensen, Thomas , Sohail, Aaqib , Iqbal, Azeem A. , Pleschka, Stephan , Chen, Fangfang , Geffers, Robert , Schultz, Kristin , Preusse, Matthias , Bähre, Heike , Shehata, Mahmoud , Pessler, Frank , Guzman, Carlos A. , Pils, Marina C. , Tantawy, Mohamed , Mostafa, Ahmed , Sahini, Nishika , Falk, Christine , Waqas, Syed F.H. , Michelucci, Alessandro , Schughart, Klaus , Winterhoff, Moritz

in A549 Cells / AKT protein / Analysis / Animals / Antiviral agents / Antiviral drugs / Biology and life sciences / Blood / Carboxy-Lyases - deficiency / Carboxy-Lyases - immunology / Care and treatment / Cell metabolism / Chemical synthesis / Chemokines / CXCL10 protein / Cytokines - genetics / Cytokines - immunology / Diagnosis / Disease / Dosage and administration / Gene sequencing / Homeostasis / Humans / Identification and classification / Immunomodulation / Infections / Inflammation / Influenza / Influenza A / Influenza A virus - immunology / Interferon / IP-10 protein / Leukocytes (mononuclear) / Lungs / Lymphocytes / Macrophages / Macrophages - immunology / Macrophages - virology / Medicine and health sciences / Metabolism / Metabolites / Mice / Mice, Knockout / Monocyte chemoattractant protein 1 / Monocytes / Morbidity / Mortality / Natural killer cells / Organic compounds / Orthomyxoviridae Infections - drug therapy / Orthomyxoviridae Infections - genetics / Orthomyxoviridae Infections - immunology / Oxidative stress / Peripheral blood mononuclear cells / Phosphorylation / Replication / Research and Analysis Methods / Risk factors / RNA sequencing / Severe acute respiratory syndrome coronavirus 2 / Stat1 protein / Succinates - pharmacology / Therapeutic applications / THP-1 Cells / Viral infections / Viruses / Weight loss / γ-Interferon

2022

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Itaconate and derivatives reduce interferon responses and inflammation in influenza A virus infection

2022

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Itaconate and derivatives reduce interferon responses and inflammation in influenza A virus infection

2022

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Journal Article

Itaconate and derivatives reduce interferon responses and inflammation in influenza A virus infection

Ebensen, Thomas,

Sohail, Aaqib,

Iqbal, Azeem A.,

Pleschka, Stephan,

Chen, Fangfang,

Geffers, Robert,

Schultz, Kristin,

Preusse, Matthias,

Bähre, Heike,

Shehata, Mahmoud,

Pessler, Frank,

Guzman, Carlos A.,

Pils, Marina C.,

Tantawy, Mohamed,

Mostafa, Ahmed,

Sahini, Nishika,

Falk, Christine,

Waqas, Syed F.H.,

Michelucci, Alessandro,

Schughart, Klaus,

Winterhoff, Moritz

2022

Overview

Excessive inflammation is a major cause of morbidity and mortality in many viral infections including influenza. Therefore, there is a need for therapeutic interventions that dampen and redirect inflammatory responses and, ideally, exert antiviral effects. Itaconate is an immunomodulatory metabolite which also reprograms cell metabolism and inflammatory responses when applied exogenously. We evaluated effects of endogenous itaconate and exogenous application of itaconate and its variants dimethyl- and 4-octyl-itaconate (DI, 4OI) on host responses to influenza A virus (IAV). Infection induced expression of ACOD1, the enzyme catalyzing itaconate synthesis, in monocytes and macrophages, which correlated with viral replication and was abrogated by DI and 4OI treatment. In IAV-infected mice, pulmonary inflammation and weight loss were greater in Acod1 -/- than in wild-type mice, and DI treatment reduced pulmonary inflammation and mortality. The compounds reversed infection-triggered interferon responses and modulated inflammation in human cells supporting non-productive and productive infection, in peripheral blood mononuclear cells, and in human lung tissue. All three itaconates reduced ROS levels and STAT1 phosphorylation, whereas AKT phosphorylation was reduced by 4OI and DI but increased by itaconate. Single-cell RNA sequencing identified monocytes as the main target of infection and the exclusive source of ACOD1 mRNA in peripheral blood. DI treatment silenced IFN-responses predominantly in monocytes, but also in lymphocytes and natural killer cells. Ectopic synthesis of itaconate in A549 cells, which do not physiologically express ACOD1 , reduced infection-driven inflammation, and DI reduced IAV- and IFNγ-induced CXCL10 expression in murine macrophages independent of the presence of endogenous ACOD1 . The compounds differed greatly in their effects on cellular gene homeostasis and released cytokines/chemokines, but all three markedly reduced release of the pro-inflammatory chemokines CXCL10 (IP-10) and CCL2 (MCP-1). Viral replication did not increase under treatment despite the dramatically repressed IFN responses. In fact, 4OI strongly inhibited viral transcription in peripheral blood mononuclear cells, and the compounds reduced viral titers (4OI>Ita>DI) in A549 cells whereas viral transcription was unaffected. Taken together, these results reveal itaconates as immunomodulatory and antiviral interventions for influenza virus infection.

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Public Library of Science,Public Library of Science (PLoS)

Subject

/ Animals

/ Biology and life sciences