Unc5b prevents macrophage-derived foam cell migration and promotes atherosclerotic development via the P53-cuproptosis signaling pathway

Atherosclerosis involves the buildup of macrophage-derived foam cells in the arterial intima. Facilitating the egress of these cells from plaques can significantly slow disease progression. The transmembrane receptor Unc5b, a vascular-specific axon guidance receptor, is upregulated in foam cells, an...

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Published in:Life sciences (1973) 2025-01, Vol.361, p.123334, Article 123334
Main Authors: Wang, Xiaomeng, Geng, Shijia, Dai, Lina, Niu, Yan, Chen, Jie, Dong, Chongyang, Liu, Rujin, Shi, Yuanjia, Zhang, Jing, Zhao, Ningxia, Gao, Zhanfeng, Gao, Shang, Yang, Xi
Format: Article
Language:English
Subjects:
Atherosclerosis
Cuproptosis
Macrophages
P53
Unc5b
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Summary:Atherosclerosis involves the buildup of macrophage-derived foam cells in the arterial intima. Facilitating the egress of these cells from plaques can significantly slow disease progression. The transmembrane receptor Unc5b, a vascular-specific axon guidance receptor, is upregulated in foam cells, and inhibits their migration from the plaques. However, the mechanisms underlying Unc5b's regulation of foam cell production and retention within plaques, along with its downstream signaling pathways, remain insufficiently understood. We employed both a foam cell model and an ApoE-deficient mouse model of atherosclerosis to evaluate these effects. Western blotting, RT-PCR, wound healing assays, and immunofluorescence staining were performed to explore the role of Unc5b in foam cell migration. Unc5b played a role in advancing atherosclerosis by regulating the P53-cuproptosis pathway, thereby inhibiting the migration of foam cells. Stimulation of Raw264.7 cells with oxidized low-density lipoprotein (ox-LDL) resulted in increased cuproptosis and inflammation, impacting migration regulation. Macrophage-derived foam cell migration was prevented by Unc5b via the P53-cuproptosis signaling pathway. Notably, PFT-α (a P53 inhibitor) and VI (a Cu2+ chelator) counteracted the inhibitory effect of ox-LDL on migration. Similarly, upregulation of cuproptosis-related proteins was observed within the aortic sinus plaques of ApoE−/− mice fed a hyperlipidemic diet. Importantly, the progression of atherosclerosis induced by a hyperlipidemic diet can be effectively reversed by PFT-α and VI. These findings underscore Unc5b's role in promoting inflammation, inhibiting macrophage migration, and promoting atherosclerotic development via the P53-cuproptosis signaling pathway. Schematic representation of the atherogenic signaling mechanism of Unc5b (Creation of FigDraw). ES: the copper ionophore ES. ATPA/B: the ATPase copper transporter 7A/B. STEAP: the six-segment transmembrane epithelial antigen of prostate. [Display omitted] •Cuproptosis and inflammation increased in macrophage-derived foam cells.•Unc5b promotes cuproptosis and inflammation in macrophage-derived foam cells.•Unc5b regulates inflammation and migration capability of macrophage-derived foam cells via P53-cuproptosis signaling pathway.•The P53-cuproptosis signaling pathway inhibition attenuated atherosclerosis.
ISSN:0024-3205
1879-0631
1879-0631
DOI:10.1016/j.lfs.2024.123334