A-239 Cxcl10 induced gut dysbiosis exacerbates acute lung injury and secondary infection in influenza by inhibiting il22

Abstract

Abstract Background Secondary infections are the most cause of severe pulmonary injury and death in influenza. CXCL10, known as interferon γ-induced protein 10(IP-10), is highly upregulated in response to IFN-γstimulation during influenza. Previous studies show that CXCL10 contributes to bacteria co-infections and worse finales in influenza. However, the underlying mechanisms by which CXCL10 facilitate secondary infections remains unclear. Emerging evidences show that influenza virus infections disturb the composition and function of gut microbiota, which in turn influences the infection process. Herein, we aimed to explore whether CXCL10 could affect the progress of influenza infection and secondary infection in a gut microbiota dependent manner. Methods CXCL10 knockout mice were used to determine the role of CXCL10 in staphylococcus aureus co-infection after influenza A virus (IAV) infection. Lung tissues from CXCL10 knockout mice were collected for Transcriptomics sequencing. Feces from mice and clinicals including IAV patients and healthy individuals were collected for Metagenomic sequencing. Paired serum samples were collected for Metabolomic sequencing. QRT-PCR was performed to determine the expression of inflammatory factors in lung tissues from CXCL10 knockout mice. Elisa assays were used to measure the serum expression levels of CXCL10 and IL22. Flow cytometry was applied to detect the proportion of IL22+ cells. Fecal microbiota transplantation (FMT) was applied to confirm that CXCL10 plays an adverse role in acute lung injury and staphylococcus aureus co-infection after IAV infection by disrupting intestinal microbiome homeostasis. Results CXCL10 aggravated acute lung injury and promoted staphylococcus aureus coinfection after IAV infection. Transcriptomics sequencing results suggests improved cell membrane integrity and regeneration of epithelial cells after IAV infection in CXCL10 knockout mice with an upregulation of integrity proteins. CXCL10 knockout significantly increased the expression levels of IL22 without influencing virus duplication. rh-IL22 protects lung epithelial cell from staphylococcus aureus co-infection in influenza and increased the expression of tight junction proteins. The gut microbiome shows different structures between wild type mice and knockout mice, as well as clinical samples according to serum CXCL10 expression levels. We found some genera were markedly increased in knockout mice and patients with low serum CXCL10 expression levels including Lactobacillus, Lachnospiraceae, Oscillibacter, Odoribacter, Eubacterium. FMT from patients with low serum CXCL10 levels and healthy individuals ameliorating lung pathological damage. Conclusions This study interpreted that CXCL10 exacerbates acute lung injury and secondary infection in influenza by inducing gut dysbiosis, suggesting that balancing the gut flora could be assistant treatments to protect from acute lung injury and secondary infections in influenza. And IL22 may be a potential mediating factor between gut-lung axis to improve epithelial integrity.