Elucidating the protective role of quercetin against lipopolysaccharide-induced necroptosis in broiler thymus: insights from Nrf2/PERK signaling based on network pharmacology and experimental validation.
Xia Yu, Xie Ruirui, Huo Xinyu, Chen Kai, Li Shiping, Xu Shiwen, Li Shu
Abstract
OBJECTIVES: Quercetin (QUE) possesses antioxidant, anti-inflammatory, and immunomodulatory functions. Nuclear factor erythroid 2-related factor 2 (Nrf2) can initiate protein kinase RNA-like ER kinase (PERK), leading to immune dysfunction and necroptosis. Our findings elucidate the therapeutic potential of QUE in attenuating LPS-induced injury in immune tissues. METHODS: Broilers and MSB-1 cells were treated with LPS or/and QUE. We also treated MSB-1 cells with an Nrf2 inhibitor (ML385), a PERK activator (MK-28), and a necroptosis inhibitor (NSA) to further explore the detailed mechanism. In addition, we further conducted network pharmacology and bioinformatics to analyze the regulatory relationship between QUE and genes. RESULTS: Combined analysis of network pharmacology and bioinformatics uncovered QUE regulates Nrf2 activation and its crosstalk with PERK signaling, influencing calcium homeostasis, necroptosis, and inflammation. Based on experimental validation, our findings demonstrated QUE treatment reduced LPS-induced imbalance in redox homeostasis through Nrf2 signaling pathway. QUE treatment downregulated the expression of cytokines linked to ERS, necroptosis, and inflammation. In addition, QUE treatment protected against LPS-induced immune function disorders. CONCLUSION: QUE treatment efficiently attenuated thymus immune disorders and necroptosis in broilers through Nrf2/PERK signaling. This investigation enriches biological function of QUE, providing a solid foundation for developing its potential application.
Key Findings
- Quercetin regulates Nrf2 activation and its interaction with PERK signaling, impacting calcium homeostasis, necroptosis, and inflammation.
- Quercetin treatment reduces LPS-induced redox imbalance via the Nrf2 signaling pathway.
- Quercetin downregulates cytokines associated with ER stress, necroptosis, and inflammation, protecting against immune dysfunction in the thymus.
Clinical Significance
Quercetin's modulation of Nrf2/PERK signaling offers a promising therapeutic approach to mitigate immune tissue injury and oxidative stress-related disorders, supporting its potential application in immune protection and inflammation control.
Citation
Xia Yu, Xie Ruirui, Huo Xinyuet al.. Elucidating the protective role of quercetin against lipopolysaccharide-induced necroptosis in broiler thymus: insights from Nrf2/PERK signaling based on network pharmacology and experimental validation. Redox report : communications in free radical research. 2026-Dec-31.