Luteolin Protects against Vascular Calcification by Modulating SIRT1/CXCR4 Signaling Pathway and Promoting Autophagy.

IF 5 3区 医学 Q1 PHARMACOLOGY & PHARMACY AAPS Journal Pub Date : 2024-10-22 DOI:10.1208/s12248-024-00982-y
Xiaoyu Yu, Lei Xu, Ce Su, Changyuan Wang, Zimeng Wang, Yanna Wang, Xiaolong Lu, Huijun Sun
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Abstract

Vascular calcification (VC) is a common pathological manifestation of atherosclerosis, hypertension, diabetes vascular disease, vascular injury, chronic kidney disease and aging, which is mainly manifested as increased stiffness of the vascular wall. Oxidative stress and autophagy dysfunction are key factors in the pathogenesis of vascular calcification, but the specific mechanisms and the therapeutic strategy of vascular calcification have not been clarified. In the present study, Sirtuin 1 (SIRT1) was screened as the therapeutic targets for vascular calcification by the bioinformatics. SIRT1 is a nicotinamide adenine dinucleotide, which plays an important role in inhibiting oxidative stress and promoting autophagy. Luteolin (LUT), a kind of natural tetrahydroxyl flavonoid, exists in many plants and has many pharmacological effects such as anti-oxidation and anti-apoptosis. We have reported that luteolin has certain anti-osteoporosis effects in the previous study, and it is accepted that the development of vascular calcification is similar to bone formation, indicating that luteolin may also resist vascular calcification. And luteolin is known to activate SIRT1 to some extent. Moreover, the molecular docking analysis predicted that SIRT1 could bind directly to luteolin. Therefore, the purpose of this study was to investigate the potential role of luteolin in inhibiting oxidative stress and promoting autophagy during vascular calcification via modulating SIRT1 expression. The results showed that luteolin significantly improved vascular calcification induced by a high-fat diet (HFD) and vitamin D3 in rats in vivo. In addition, luteolin significantly repressed the formation of mineralized nodules and ALP activity in H2O2-treated A7r5 cells. Luteolin reduced the level of MDA, LDH and ROS generation, inhibited the protein expression of cleaved caspase-3, cleaved caspase-9, β-catenin and BMP-2 in the aortic tissue of the rat and rat smooth muscle cells (A7r5) treated with hydrogen peroxide. At the same time, luteolin could promote the expression of autophagy related proteins. Moreover, luteolin also produced effects to increase the protein expression levels of SIRT1 more than 2 times both in vivo and in vitro. In terms of mechanism, luteolin attenuated vascular calcification by inhibiting oxidative stress and improving autophagy level, via modulating SIRT1 / CXCR4 signaling pathway. In conclusion, this experiment for the first time revealed that LUT protected against VC via modulating SIRT1 / CXCR4 signaling pathway to promote autophagy and inhibit vascular calcification and may be developed as a new therapeutic agent for vascular calcification and atherosclerosis.

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木犀草素通过调节 SIRT1/CXCR4 信号通路和促进自噬防止血管钙化
血管钙化(VC)是动脉粥样硬化、高血压、糖尿病血管疾病、血管损伤、慢性肾病和衰老的常见病理表现,主要表现为血管壁僵硬度增加。氧化应激和自噬功能障碍是血管钙化发病机制中的关键因素,但血管钙化的具体机制和治疗策略尚未明确。本研究通过生物信息学方法筛选出Sirtuin 1(SIRT1)作为血管钙化的治疗靶点。SIRT1 是一种烟酰胺腺嘌呤二核苷酸,在抑制氧化应激和促进自噬方面发挥着重要作用。木犀草素(LUT)是一种天然四羟基黄酮类化合物,存在于多种植物中,具有抗氧化、抗细胞凋亡等多种药理作用。我们在之前的研究中已经报道了木犀草素具有一定的抗骨质疏松作用,而血管钙化的发展过程与骨的形成过程相似,这表明木犀草素也可以抵抗血管钙化。而且已知叶黄素能在一定程度上激活 SIRT1。此外,分子对接分析预测 SIRT1 可直接与叶黄素结合。因此,本研究旨在探讨叶黄素在血管钙化过程中通过调节 SIRT1 的表达来抑制氧化应激和促进自噬的潜在作用。结果表明,叶黄素能明显改善高脂饮食(HFD)和维生素D3诱导的大鼠体内血管钙化。此外,叶黄素还能明显抑制 H2O2 处理的 A7r5 细胞中矿化结节的形成和 ALP 活性。叶黄素能降低过氧化氢处理的大鼠主动脉组织和大鼠平滑肌细胞(A7r5)中的 MDA、LDH 和 ROS 生成水平,抑制裂解的 caspase-3、裂解的 caspase-9、β-catenin 和 BMP-2 的蛋白表达。同时,叶黄素还能促进自噬相关蛋白的表达。此外,叶黄素还能使体内和体外的 SIRT1 蛋白表达水平提高 2 倍以上。从机制上看,叶黄素通过调节 SIRT1 / CXCR4 信号通路,抑制氧化应激,提高自噬水平,从而减轻血管钙化。总之,本实验首次揭示了木犀草素通过调节 SIRT1 / CXCR4 信号通路促进自噬,抑制血管钙化,从而保护血管钙化,可作为血管钙化和动脉粥样硬化的一种新的治疗药物。
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来源期刊
AAPS Journal
AAPS Journal 医学-药学
CiteScore
7.80
自引率
4.40%
发文量
109
审稿时长
1 months
期刊介绍: The AAPS Journal, an official journal of the American Association of Pharmaceutical Scientists (AAPS), publishes novel and significant findings in the various areas of pharmaceutical sciences impacting human and veterinary therapeutics, including: · Drug Design and Discovery · Pharmaceutical Biotechnology · Biopharmaceutics, Formulation, and Drug Delivery · Metabolism and Transport · Pharmacokinetics, Pharmacodynamics, and Pharmacometrics · Translational Research · Clinical Evaluations and Therapeutic Outcomes · Regulatory Science We invite submissions under the following article types: · Original Research Articles · Reviews and Mini-reviews · White Papers, Commentaries, and Editorials · Meeting Reports · Brief/Technical Reports and Rapid Communications · Regulatory Notes · Tutorials · Protocols in the Pharmaceutical Sciences In addition, The AAPS Journal publishes themes, organized by guest editors, which are focused on particular areas of current interest to our field.
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