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β-Sitosterol Enhances Lung Epithelial Cell Permeability by Suppressing the NF-κB Signaling Pathway.
Discovery Medicine 2023 December
BACKGROUND: The dysregulation between pro-inflammatory and anti-inflammatory responses during sepsis is a crucial factor in driving sepsis progression. Acute lung injury (ALI) resulting from excessive production and accumulation of inflammatory mediators in the lungs contributes to impaired lung barrier function. The activation of the NF-κB signaling pathway during inflammation leads to the transcriptional activation of multiple inflammatory genes. Given the plausible impact of NF-κB signaling suppression in mitigating lung injury, substantive evidence demonstrates beta-sitosterol (BS)'s proficient ability to block NF-κB activation. Therefore, the aim of the present investigation was to delve into the impacts of BS in the context of sepsis-induced acute lung injury, employing both a mouse model and a model involving lung epithelial cells.
METHODS: Sepsis-induced lung injury was simulated in mice through cecum ligation and puncture (CLP). To emulate injury in murine lung epithelial (MLE-12) cells, an experiment involving lipopolysaccharide (LPS) was administered. Evaluation of alterations in lung tissue permeability encompassed techniques such as lung wet/dry (W/D) mass ratio, Evans blue staining, and quantification of total protein concentration in bronchoalveolar lavage fluid (BALF). Lung tissue histopathological shifts were ascertained via hematoxylin and eosin (HE) staining. Additionally, the concentrations of inflammatory cytokines IL-6 and TNF-α were quantified in every lung tissue and cell group by implementing enzyme-linked immunosorbent assay (ELISA). Protein quantification for signal biomarkers was carried out using Western blotting and immunofluorescence methodologies. In tandem, the assessment of MLE-12 cell permeability was conducted by evaluating fluorescein isothiocyanate (FITC)-dextran extravasation.
RESULTS: BS mitigated lung tissue pathologies, reduced inflammatory factors, and lowered tissue and cell permeability. BS inhibited NF-κB signaling and increased claudin-4 and claudin-5 expression, enhancing septic lung epithelial cell permeability.
CONCLUSIONS: Through suppressing the NF-κB signaling cascade, BS effectively curtails the levels of inflammatory mediators. Simultaneously, it orchestrates the modulation of claudin-4 and claudin-5 expression, culminating in the augmentation of lung epithelial cell barrier competence, thus improving sepsis-induced lung injury.
METHODS: Sepsis-induced lung injury was simulated in mice through cecum ligation and puncture (CLP). To emulate injury in murine lung epithelial (MLE-12) cells, an experiment involving lipopolysaccharide (LPS) was administered. Evaluation of alterations in lung tissue permeability encompassed techniques such as lung wet/dry (W/D) mass ratio, Evans blue staining, and quantification of total protein concentration in bronchoalveolar lavage fluid (BALF). Lung tissue histopathological shifts were ascertained via hematoxylin and eosin (HE) staining. Additionally, the concentrations of inflammatory cytokines IL-6 and TNF-α were quantified in every lung tissue and cell group by implementing enzyme-linked immunosorbent assay (ELISA). Protein quantification for signal biomarkers was carried out using Western blotting and immunofluorescence methodologies. In tandem, the assessment of MLE-12 cell permeability was conducted by evaluating fluorescein isothiocyanate (FITC)-dextran extravasation.
RESULTS: BS mitigated lung tissue pathologies, reduced inflammatory factors, and lowered tissue and cell permeability. BS inhibited NF-κB signaling and increased claudin-4 and claudin-5 expression, enhancing septic lung epithelial cell permeability.
CONCLUSIONS: Through suppressing the NF-κB signaling cascade, BS effectively curtails the levels of inflammatory mediators. Simultaneously, it orchestrates the modulation of claudin-4 and claudin-5 expression, culminating in the augmentation of lung epithelial cell barrier competence, thus improving sepsis-induced lung injury.
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