Intervention of Asprosin Attenuates Oxidative Stress and Neointima Formation in Vascular Injury.

IF 5.9 2区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Antioxidants & redox signaling Pub Date : 2024-09-01 Epub Date: 2024-07-10 DOI:10.1089/ars.2023.0383
Fen Zheng, Chao Ye, Jian-Zhen Lei, Rui Ge, Na Li, Jin-Hua Bo, Ai-Dong Chen, Feng Zhang, Hong Zhou, Jue-Jin Wang, Qi Chen, Yue-Hua Li, Guo-Qing Zhu, Ying Han
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Abstract

Aims: Asprosin, a newly discovered hormone, is linked to insulin resistance. This study shows the roles of asprosin in vascular smooth muscle cell (VSMC) proliferation, migration, oxidative stress, and neointima formation of vascular injury. Methods: Mouse aortic VSMCs were cultured, and platelet-derived growth factor-BB (PDGF-BB) was used to induce oxidative stress, proliferation, and migration in VSMCs. Vascular injury was induced by repeatedly moving a guidewire in the lumen of the carotid artery in mice. Results: Asprosin overexpression promoted VSMC oxidative stress, proliferation, and migration, which were attenuated by toll-like receptor 4 (TLR4) knockdown, antioxidant (N-Acetylcysteine, NAC), NADPH oxidase 1 (NOX1) inhibitor ML171, or NOX2 inhibitor GSK2795039. Asprosin overexpression increased NOX1/2 expressions, whereas asprosin knockdown increased heme oxygenase-1 (HO-1) and NADPH quinone oxidoreductase-1 (NQO-1) expressions. Asprosin inhibited nuclear factor E2-related factor 2 (Nrf2) nuclear translocation. Nrf2 activator sulforaphane increased HO-1 and NQO-1 expressions and prevented asprosin-induced NOX1/2 upregulation, oxidative stress, proliferation, and migration. Exogenous asprosin protein had similar roles to asprosin overexpression. PDGF-BB increased asprosin expressions. PDGF-BB-induced oxidative stress, proliferation, and migration were enhanced by Nrf2 inhibitor ML385 but attenuated by asprosin knockdown. Vascular injury increased asprosin expression. Local asprosin knockdown in the injured carotid artery promoted HO-1 and NQO-1 expressions but attenuated the NOX1 and NOX2 upregulation, oxidative stress, neointima formation, and vascular remodeling in mice. Innovation and Conclusion: Asprosin promotes oxidative stress, proliferation, and migration of VSMCs via TLR4-Nrf2-mediated redox imbalance. Inhibition of asprosin expression attenuates VSMC proliferation and migration, oxidative stress, and neointima formation in the injured artery. Asprosin might be a promising therapeutic target for vascular injury. Antioxid. Redox Signal. 41, 488-504.

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干预芦笋素可减轻血管损伤中的氧化应激和新生血管形成。
目的:阿斯匹林是一种新发现的激素,与胰岛素抵抗有关。本研究显示了芦笋素在血管损伤的血管平滑肌细胞(VSMCs)增殖、迁移、氧化应激和新内膜形成中的作用:方法:培养小鼠主动脉血管平滑肌细胞,使用血小板衍生生长因子-BB(PDGF-BB)诱导血管平滑肌细胞氧化应激、增殖和迁移。在小鼠颈动脉腔内反复移动导丝诱导血管损伤:结果:过表达阿司匹林可促进血管内皮细胞氧化应激、增殖和迁移,而敲除toll样受体4(TLR4)、抗氧化剂NAC、NOX1抑制剂ML171或NOX2抑制剂GSK2795039可减轻这些作用。过表达阿司匹林会增加 NOX1/2 的表达,而敲除阿司匹林会增加血红素加氧酶-1(HO-1)和 NADPH 醌氧化还原酶-1(NQO-1)的表达。阿司匹林抑制了 Nrf2 的核转位。Nrf2 激活剂舒拉叶素可增加 HO-1 和 NQO-1 的表达,并防止阿司匹林诱导的 NOX1/2 上调、氧化应激、增殖和迁移。外源性天冬氨酸蛋白的作用与天冬氨酸过表达相似。PDGF-BB 增加了asprosin的表达。Nrf2抑制剂ML385可增强PDGF-BB诱导的氧化应激、增殖和迁移,但敲除asprosin可减轻其作用。血管损伤增加了asprosin的表达。在损伤的颈动脉局部敲除asprosin会促进HO-1和NQO-1的表达,但会减轻小鼠NOX1和NOX2的上调、氧化应激、新生血管形成和血管重塑:创新点与结论:阿司匹林通过TLR4-Nrf2介导的氧化还原失衡促进血管内皮细胞的氧化应激、增殖和迁移。抑制阿司匹林的表达可减轻损伤动脉中 VSMC 的增殖和迁移、氧化应激和新生内膜的形成。阿司匹林可能是治疗血管损伤的一个很有前景的靶点。
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来源期刊
Antioxidants & redox signaling
Antioxidants & redox signaling 生物-内分泌学与代谢
CiteScore
14.10
自引率
1.50%
发文量
170
审稿时长
3-6 weeks
期刊介绍: Antioxidants & Redox Signaling (ARS) is the leading peer-reviewed journal dedicated to understanding the vital impact of oxygen and oxidation-reduction (redox) processes on human health and disease. The Journal explores key issues in genetic, pharmaceutical, and nutritional redox-based therapeutics. Cutting-edge research focuses on structural biology, stem cells, regenerative medicine, epigenetics, imaging, clinical outcomes, and preventive and therapeutic nutrition, among other areas. ARS has expanded to create two unique foci within one journal: ARS Discoveries and ARS Therapeutics. ARS Discoveries (24 issues) publishes the highest-caliber breakthroughs in basic and applied research. ARS Therapeutics (12 issues) is the first publication of its kind that will help enhance the entire field of redox biology by showcasing the potential of redox sciences to change health outcomes. ARS coverage includes: -ROS/RNS as messengers -Gaseous signal transducers -Hypoxia and tissue oxygenation -microRNA -Prokaryotic systems -Lessons from plant biology
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