AI Article Synopsis
- Acute Respiratory Distress Syndrome (ARDS) involves immune-related harm to lung epithelial cells, and this study explores how microRNA (miRNA) changes in mast cell-derived exosomes impact ARDS development.
- The research found that lipopolysaccharide-treated exosomes lowered the protective protein GPX4 and increased inflammation-related factors in human bronchial epithelial cells, linked to decreased levels of a specific miRNA (miR-744).
- Importantly, lower miR-744 levels were connected to increased lung damage and inflammation in both cell and mouse models, suggesting that restoring miR-744 might offer new therapeutic avenues for treating ARDS.
Article Abstract
Acute respiratory distress syndrome (ARDS) is a critical disorder characterized by immune-related damage to epithelial cells; however, its underlying mechanism remains elusive. This study investigated the effects of alterations in microRNA (miRNA) expression in mast cell-derived exosomes on human bronchial epithelial (HBE) cells and ARDS development in cellular and mouse models challenged with lipopolysaccharide. Lipopolysaccharide-treated mast cell-derived exosomes reduced glutathione peroxidase 4 (GPX4) expression and increased long-chain acyl-CoA synthetase 4 (ACSL4), 15-lipoxygenase (ALOX15), and inflammatory mediator levels in HBE cells. miRNA sequencing revealed a reduction in mast cell-derived exosomal miR-744 levels, which was associated with the regulation of ACSL4, ALOX15, and GPX4 expression. This downregulation of exosomal miR-744 expression reduced miR-744 levels and promoted ferroptosis in HBE cells, whereas the experimental upregulation of miR-744 reversed these adverse effects. Down-regulation of miR-744 induced the expression of markers for ferroptosis and inflammation in HBE cells and promoted pulmonary ferroptosis, inflammation, and injury in LPS-stimulated mice. In vivo, treatment with ACSL4, ALOX15, and GPX4 inhibitors mitigated these effects, and experimental miR-744 expression rescued the lipopolysaccharide-induced changes in HBE cells and mouse lungs. Notably, miR-744 levels were reduced in the plasma and exosomes of patients with ARDS. We concluded that decreased mast cell-derived exosomal miR-744 levels trigger epithelial cell ferroptosis, promoting lung inflammation and damage in ARDS. This study provides new mechanistic insights into the development and sustained pulmonary damage associated with ARDS and highlights potential therapeutic strategies.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11493202 | PMC |
| http://dx.doi.org/10.1016/j.redox.2024.103387 | DOI Listing |
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Article Synopsis
- Acute Respiratory Distress Syndrome (ARDS) involves immune-related harm to lung epithelial cells, and this study explores how microRNA (miRNA) changes in mast cell-derived exosomes impact ARDS development.
- The research found that lipopolysaccharide-treated exosomes lowered the protective protein GPX4 and increased inflammation-related factors in human bronchial epithelial cells, linked to decreased levels of a specific miRNA (miR-744).
- Importantly, lower miR-744 levels were connected to increased lung damage and inflammation in both cell and mouse models, suggesting that restoring miR-744 might offer new therapeutic avenues for treating ARDS.
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