Bassam W. EbeedIslam Ahmed AbdelmawgoodMohamed A. KotbNoha A. MahanaAyman Saber MohamedMarwa A. RamadanAbeer Mahmoud BadrManar NasrOsama Mohsen QuraniReem Mohamed HamdyNada Yasser Abd El‑HakiemMariam Khaled FahimMariam Morris FekryJehane I. Eid2024-11-062024-11-062024-09-21MSA University Faculty Of Biotechnologyhttps://repository.msa.edu.eg/handle/123456789/6188Asthma is a severe respiratory disease marked by airway inflammation, remodeling, and oxidative stress. β-Glucan (BG), a polysaccharide constituent of fungal cellular structures, exhibits potent immunomodulatory activities. The investigational focus was on the anti-asthmatic and anti-ferroptotic properties of beta-glucan nanoparticles (BG-NPs) in a murine model of allergic asthma induced by ovalbumin (OVA). BG was extracted from Chaga mushrooms (Inonotus obliquus), and its BGNPs were characterized utilizing techniques including FT-IR, UV visible spectroscopy, zeta potential analysis, DLS, XRD, and TEM. The Balb/C mice were allocated into five groups: control, untreated asthmatic, dexamethasone (Dexa)-treated (1 mg/kg), BG-treated (100 mg/kg), BG-NPs-treated (45 mg/kg), and BG-treated (100 mg/kg). Treatment with BG-NPs markedly diminished the entry of inflammatory cells into the respiratory passage, serum IgE concentrations, DNA damage, and markers of oxidative stress through the reduction of malonaldehyde (MDA) levels and enhancing the levels of reduced glutathione (GSH), glutathione peroxidase (GPx), superoxide dismutase (SOD), and catalase (CAT). Furthermore, BG-NPs reduced iron deposition and promoted the transcriptional activity of the GPx4 gene in pulmonary cells, attenuating ferroptosis. The results demonstrated that BG-NPs reduced asthma by inhibiting oxidative stress, inflammation, DNA damage, and ferroptosis. Our results suggest that BG-NPs could be used as potential treatments for allergic asthma.enBeta-glucan nanoparticlesOvalbuminAcute asthmaOxidative stressInflammationFerroptosisArticlehttps://doi.org/10.1007/s10495-024-02013-9