4-OI improves mitochondria-associated endoplasmic reticulum membrane dysfunction by regulating MFN2 through Nrf2 transcription and alleviates airway inflammation in asthma exposed to PM2.5 early in life
Jiaxin Xu, Lei Wang, Rui Zhou, Siwei Wang, Juan Li
Journal:INHALATION TOXICOLOGY
IF:2.1
DOI:10.1080/08958378.2026.2650614
PMID:41902706
Published:2026-03-28
research field:分子生物学氧化应激与炎症免疫学呼吸医学环境毒理学
Abstract
Background Asthma is a disease that still lacks effective preventive measures with distinctive pathologicfeatures, particularly inflammation, oxidative stress, apoptosis and endoplasmic reticulum (ER) stress. 4-Octyl itaconate (4-OI) has been reported to possess immunomodulatory, anti-inflammatory and antioxidant properties.Methods In this study, we evaluated the efficacy of 4-OI in airway inflammation and oxidative lung injury in asthmatic mice exposed to PM2.5 using the ovalbumin (OVA)+ PM2.5-induced asthma model in BALB/c mice. In addition, we further evaluated the role of 4-OI in protecting BEAS-2B cells from PM2.5 induction using an in vitro model of asthma.Results The results showed that 4-OI attenuated airway inflammatory cell infiltration and the levels of mouse whole lung lavage fluid inflammatory factors, and decreased the levels of MDA and ROS, while increasing the activity of SOD. Meanwhile, in in vitro experiments, it was further demonstrated that 4-OI transcriptionally regulated MFN2 via Nrf2, which reduced the intracellular and mitochondrial ROS content, and the fluorescence intensities of Mito Tracker Red+ calnexin+ and MFN2+PERK+ were also significantly reduced. Fluo-3 AM experiment showed that 4-OI reduced Ca2+ concentration by regulating MFN2 through Nrf2 transcription. In addition, the protein expression of MFN1, MFN2, Bcl-2, and pro-Caspase3 was significantly elevated and that of PERK, GRP78, CHOP, Caspase12, Bax, and cleaved-Caspase3 was significantly decreased by Western Blot.Conclusions In summary, our research demonstrated found that 4-OI improved the dysfunction of mitochondria-associated endoplasmic reticulum membranes by modulating MFN2 via Nrf2 transcription, thereby reducing the inflammatory response in asthmatic airways during early exposure to PM2.5.
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