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Metabolic host response and therapeutic approaches to influenza infection

Mohsen Keshavarz, Farid Solaymani‐Mohammadi, Haideh Namdari, Yaser Arjeini, Mohammad Javad Mousavi, Farhad Rezaei

2020Cellular & Molecular Biology Letters96 citationsDOIOpen Access PDF

Abstract

Based on available metabolomic studies, influenza infection affects a variety of cellular metabolic pathways to ensure an optimal environment for its replication and production of viral particles. Following infection, glucose uptake and aerobic glycolysis increase in infected cells continually, which results in higher glucose consumption. The pentose phosphate shunt, as another glucose-consuming pathway, is enhanced by influenza infection to help produce more nucleotides, especially ATP. Regarding lipid species, following infection, levels of triglycerides, phospholipids, and several lipid derivatives undergo perturbations, some of which are associated with inflammatory responses. Also, mitochondrial fatty acid β-oxidation decreases significantly simultaneously with an increase in biosynthesis of fatty acids and membrane lipids. Moreover, essential amino acids are demonstrated to decline in infected tissues due to the production of large amounts of viral and cellular proteins. Immune responses against influenza infection, on the other hand, could significantly affect metabolic pathways. Mainly, interferon (IFN) production following viral infection affects cell function via alteration in amino acid synthesis, membrane composition, and lipid metabolism. Understanding metabolic alterations required for influenza virus replication has revealed novel therapeutic methods based on targeted inhibition of these cellular metabolic pathways.

Topics & Concepts

Pentose phosphate pathwayMetabolic pathwayBiologyLipid metabolismGlycolysisMetabolismBiochemistryImmune systemCarbohydrate metabolismViral replicationInfluenza A virusAmino acidMetabolomicsMembrane lipidsVirusVirologyImmunologyMembraneBioinformaticsInfluenza Virus Research Studiesinterferon and immune responsesPeroxisome Proliferator-Activated Receptors
Metabolic host response and therapeutic approaches to influenza infection | Litcius