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Integrated multi-omics analysis reveals liver metabolic reprogramming by fish iridovirus and antiviral function of alpha-linolenic acid

Lin Liu, 华南农业大学海洋学院岭南现代农业科学与技术广东省实验室, 广东 广州 510642, 中国, Ya Zhang, Meng-Di Yuan, Dong-Miao Xiao, Weihua Xu, Qi Zheng, Qiwei Qin, Youhua Huang, Xiao-Hong Huang, 广州南沙华农渔业研究院, 广东 广州 511464, 中国, 南方海洋科学与工程广东省重点实验室, 广东 珠海 519082, 中国

2024动物学研究36 citationsDOIOpen Access PDF

Abstract

Iridovirus poses a substantial threat to global aquaculture due to its high mortality rate; however, the molecular mechanisms underpinning its pathogenesis are not well elucidated. Here, a multi-omics approach was applied to groupers infected with Singapore grouper iridovirus (SGIV), focusing on the roles of key metabolites. Results showed that SGIV induced obvious histopathological damage and changes in metabolic enzymes within the liver. Furthermore, SGIV significantly reduced the contents of lipid droplets, triglycerides, cholesterol, and lipoproteins. Metabolomic analysis indicated that the altered metabolites were enriched in 19 pathways, with a notable down-regulation of lipid metabolites such as glycerophosphates and alpha-linolenic acid (ALA), consistent with disturbed lipid homeostasis in the liver. Integration of transcriptomic and metabolomic data revealed that the top enriched pathways were related to cell growth and death and nucleotide, carbohydrate, amino acid, and lipid metabolism, supporting the conclusion that SGIV infection induced liver metabolic reprogramming. Further integrative transcriptomic and proteomic analysis indicated that SGIV infection activated crucial molecular events in a phagosome-immune depression-metabolism dysregulation-necrosis signaling cascade. Of note, integrative multi-omics analysis demonstrated the consumption of ALA and linoleic acid (LA) metabolites, and the accumulation of L-glutamic acid (GA), accompanied by alterations in immune, inflammation, and cell death-related genes. Further experimental data showed that ALA, but not GA, suppressed SGIV replication by activating antioxidant and anti-inflammatory responses in the host. Collectively, these findings provide a comprehensive resource for understanding host response dynamics during fish iridovirus infection and highlight the antiviral potential of ALA in the prevention and treatment of iridoviral diseases.

Topics & Concepts

BiologyMetabolomeMetabolomicsIridovirusTranscriptomeLipid metabolismLipid dropletProgrammed cell deathBiochemistryBioinformaticsApoptosisGeneGene expressionAquaculture disease management and microbiotainterferon and immune responsesPeroxisome Proliferator-Activated Receptors
Integrated multi-omics analysis reveals liver metabolic reprogramming by fish iridovirus and antiviral function of alpha-linolenic acid | Litcius