Osthole targets doublecortin like kinase 1 (DCLK1/DCAMKL1) in macrophages to inhibit NF-κB-mediated inflammation and alleviate atherosclerosis
Sirui Shen, Wu Luo, Yue Guan, Yudie Yang, Pan Chen, Jiaqi Xu, Tong Zhou, Yongping Chen, Guang Liang
Journal:BRITISH JOURNAL OF PHARMACOLOGY
IF:7.5
DOI:10.1111/bph.70475
PMID:42062807
Published:2026-04-30
research field:分子生物学药理学天然产物心血管疾病炎症研究
Abstract
Background and Purpose Atherosclerosis is a chronic inflammatory disease. Targeting inflammatory pathways provides a promising avenue to treat atherosclerosis. Osthole (OS), isolated from the Cnidium plant, has been reported diverse pharmacological activities, including anti-cancer, anti-oxidant, neuroprotective, anti-osteoporosis and anti-inflammatory effects. However, the role on atherosclerosis and molecular targets of osthole remains unclear. We aimed to explore the anti-atherosclerosis role of osthole and investigate the underlying molecular mechanism. Experimental Approach Mouse primary peritoneal macrophages (MPMs) were isolated and treated with oxLDL in vitro . Protein microarray and molecular docking were used to identify the target/s of osthole. ApoE −/− mice were fed with a high-fat diet (HFD) for 8 weeks to induce atherosclerosis. Key Results Osthole inhibited the inflammatory factor secretion induced by oxLDL and then reduced oxLDL uptake in MPMs. In vivo , osthole administration alleviated atherosclerotic plaque formation and inflammatory response in HFD-fed ApoE −/− mice. Mechanistically, protein microarray incubated with biotin-labelled osthole identified doublecortin like kinase 1 (DCLK1/DCAMKL1) as the top-ranked binding protein of osthole. Osthole directly bound to DCLK1 at I396 and L518 sites, inhibited the phosphorylation of DCLK1, and then prevented its interaction with inhibitor of nuclear factor kappa B kinase subunit beta (IKKβ). Through targeting DCLK1, osthole suppressed NF-κB pathway activation and inflammatory responses in both MPMs and aortic lesions. Conclusion and Implications Taken together, our findings show the therapeutic potential of osthole against inflammatory atherosclerosis and establish a foundation for targeting DCLK1 therapy in atherosclerosis. Graphical
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