AI Article Synopsis
- Respiratory Syncytial Virus (RSV) causes significant respiratory infections and is linked to lipid changes in affected children's lungs, but the specific roles of these lipids are not well-studied.
- Researchers used advanced lipidomics techniques to analyze lung fluid from RSV-infected mice, identifying 72 lipid species with notable changes in ether phospholipids and lysophospholipids.
- Among the altered lipids, lysophosphoethanolamine 16:0 (LPE 16:0) was found to protect against RSV-related weight loss and lung damage, suggesting potential for new treatments targeting lipid metabolism in RSV pneumonia.
Article Abstract
Respiratory Syncytial Virus (RSV) is a leading cause of acute lower respiratory infections, imposing a substantial burden on healthcare systems globally. While lipid disorders have been observed in the lungs of infants and young children with RSV pneumonia, the specific characterization of these lipids and their roles in the development and progression of RSV pneumonia remain largely unexplored. To address this tissue, we established a non-targeted high-resolution lipidomics platform using UHPLC-Q-Exactive-MS to analyze lipid profiles in bronchoalveolar lavage fluid (BALF) obtained from mice infected with RSV. Through the lipidomics analysis, a total of 72 lipids species were identified, with 40 lipids were significantly changed. Notably, the primary changes were observed in ether phospholipids and lysophospholipids. Furthermore, a targeted lipidomics analysis utilizing UHPLC-QQQ-MS/MS was developed to specifically assess the levels of lysophospholipids, including lysophosphocholine 16:0 (LPC 16:0), lysophosphoethanolamine 16:0 (LPE 16:0) and lysophosphoglycerol 16:0 (LPG 16:0), in RSV-infected mice compared to control mice. Animal experiments revealed that LPE 16:0, rather than LPC 16:0 or LPG 16:0, provided protection against RSV-induced weight loss, reduced lung viral load, regulated immune cells and mitigated lung injury in mice afflicted with RSV pneumonia. In summary, our findings suggested that the host responses to RSV infection pathology are closely with various lipid metabolic. Additionally, our results elucidated novel biological functions of LPE 16:0 and offering new avenues for drug development against RSV pneumonia.
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| http://dx.doi.org/10.1016/j.jpba.2024.116399 | DOI Listing |
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