Lab Anim Res.  2023 Dec;39(4):317-328. 10.1186/s42826-023-00177-0.

Prevention of severe lung immunopathology associated with influenza infection through adeno‑associated virus vector administration

Affiliations
  • 1Graduate Course of Translational Medicine, Seoul National University Col- lege of Medicine, Seoul 03080, Republic of Korea
  • 2Transplantation Research Institute, Seoul National University College of Medicine, Seoul 03080, Republic of Korea
  • 3Department of Pathology, Seoul National University College of Medicine, Seoul 03080, Republic of Korea
  • 4Integrated Major in Innovative Medical Science, Seoul National University Graduate School, Seoul 03080, Republic of Korea
  • 5Department of Medicine, Seoul National University College of Medicine, Seoul 03080, Republic of Korea

Abstract

Background
Influenza A viruses (IAVs) have long posed a threat to humans, occasionally causing significant morbidity and mortality. The initial immune response is triggered by infected epithelial cells, alveolar macrophages and dendritic cells. However, an exaggerated innate immune response can result in severe lung injury and even host mortality. One notable pathology observed in hosts succumbing to severe influenza is the excessive influx of neutrophils and monocytes into the lung. In this study, we investigated a strategy for controlling lung immunopathology following severe influenza infection.
Results
To evaluate the impact of innate immunity on influenza-associated lung injury, we employed CB17.SCID and NOD.SCID mice. NOD.SCID mice exhibited slower weight loss and longer survival than CB17.SCID mice following influenza infection. Lung inflammation was reduced in NOD.SCID mice compared to CB17.SCID mice. Bulk RNA sequencing analysis of lung tissue showed significant downregulation of 827 genes, and differentially expressed gene analysis indicated that the cytokine-cytokine receptor interaction pathway was predominantly downregulated in NOD.SCID mice. Interestingly, the expression of the Cxcl14 gene was higher in the lungs of influenza-infected NOD.SCID mice than in CB17.SCID mice. Therefore, we induced overexpression of the Cxcl14 gene in the lung using the adeno-associated virus 9 (AAV9)-vector system for target gene delivery. However, when we administered the AAV9 vector carrying the Cxcl14 gene or a control AAV9 vector to BALB/c mice from both groups, the morbidity and mortality rates remained similar. Both groups exhibited lower morbidity and mortality than the naive group that did not receive the AAV9 vector prior to IAV infection, suggesting that the pre-administration of the AAV9 vector conferred protection against lethal influenza infection, irrespective of Cxcl14 overexpression. Furthermore, we found that pre-inoculation of BALB/c mice with AAV9 attenuated the infiltration of trans-macrophages, neutrophils and monocytes in the lungs following IAV infection. Although there was no difference in lung viral titers between the naive group and the AAV9 pre-inoculated group, pre-inoculation with AAV9 conferred lung injury protection against lethal influenza infection in mice.
Conclusions
Our study demonstrated that pre-inoculation with AAV9 prior to IAV infection protected mouse lungs from immunopathology by reducing the recruitment of inflammatory cells.

Keyword

Influenza A virus; Adeno-associated virus; Lung injury; Immunopathology; Inflammatory cells
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