尿胆素 A 可通过限制载脂蛋白 E 缺失小鼠的炎症和高胆固醇血症来促进动脉粥样硬化斑块的稳定性。

IF 6.9 1区 医学 Q1 CHEMISTRY, MULTIDISCIPLINARY
Acta Pharmacologica Sinica Pub Date : 2024-11-01 Epub Date: 2024-06-17 DOI:10.1038/s41401-024-01317-5
Meng-Yun Xu, Jing-Jing Xu, Li-Jing Kang, Zheng-Hong Liu, Mei-Ming Su, Wen-Qi Zhao, Zhi-Hua Wang, Lu Sun, Jian-Bo Xiao, Paul C Evans, Xiao-Yu Tian, Li Wang, Yu Huang, Xin-Miao Liang, Jian-Ping Weng, Suo-Wen Xu
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引用次数: 0

摘要

尿石素 A(UroA)是一种膳食植物化学物质,由肠道细菌从富含天然多酚鞣花丹宁(ETs)的水果中产生。人体内 ETs 代谢为 UroA 的效率取决于肠道微生物群。鞣花酸具有多种药理活性。在这项研究中,我们探讨了尿囊素对动脉粥样硬化病变发展和稳定性的影响。载脂蛋白 E 缺乏(ApoE-/-)小鼠以高脂肪和高胆固醇饮食喂养 3 个月,以建立动脉粥样硬化模型。同时给小鼠注射尿囊素(50 mg-kg-1-d-1, i.g.)。结果表明,服用尿囊素能显著减少饮食诱导的肱动脉粥样硬化病变、斑块中巨噬细胞的含量、内皮粘附分子的表达、斑块内出血和坏死核心的大小,同时增加平滑肌肌动蛋白的表达和纤维帽的厚度,这意味着斑块稳定的特征。利用 TNF-α 刺激的人内皮细胞阐明了其潜在机制。用 UroA(10、25、50 μM)进行预处理可剂量依赖性地抑制 TNF-α 诱导的内皮细胞活化和单核细胞粘附。然而,尿囊素对 TNF-α 刺激的人脐静脉内皮细胞(HUVECs)的抗炎作用与 NF-κB p65 通路无关。我们进行了 RNA 序列分析,以确定 UroA 预处理的 HUVECs 中与血管功能、炎症反应、细胞粘附和血栓形成相关的基因(DEGs)的差异表达。人类疾病富集分析表明,这些 DEGs 与心血管疾病显著相关。我们发现,在 TNF-α 刺激的 HUVECs 中,UroA 预处理可通过促进 NO 生成、降低 YAP/TAZ 蛋白表达和 TEAD 转录活性来缓解内皮炎症。另一方面,我们发现服用 UroA 可调节肝脏中致脂转录因子 SREBP1/2 的转录和裂解,从而改善 ApoE-/- 小鼠的胆固醇代谢。这项研究为预防动脉粥样硬化的新饮食疗法提供了实验依据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Urolithin A promotes atherosclerotic plaque stability by limiting inflammation and hypercholesteremia in Apolipoprotein E-deficient mice.

Urolithin A promotes atherosclerotic plaque stability by limiting inflammation and hypercholesteremia in Apolipoprotein E-deficient mice.

Urolithin A (UroA), a dietary phytochemical, is produced by gut bacteria from fruits rich in natural polyphenols ellagitannins (ETs). The efficiency of ETs metabolism to UroA in humans depends on gut microbiota. UroA has shown a variety of pharmacological activities. In this study we investigated the effects of UroA on atherosclerotic lesion development and stability. Apolipoprotein E-deficient (ApoE-/-) mice were fed a high-fat and high-cholesterol diet for 3 months to establish atherosclerosis model. Meanwhile the mice were administered UroA (50 mg·kg-1·d-1, i.g.). We showed that UroA administration significantly decreased diet-induced atherosclerotic lesions in brachiocephalic arteries, macrophage content in plaques, expression of endothelial adhesion molecules, intraplaque hemorrhage and size of necrotic core, while increased the expression of smooth muscle actin and the thickness of fibrous cap, implying features of plaque stabilization. The underlying mechanisms were elucidated using TNF-α-stimulated human endothelial cells. Pretreatment with UroA (10, 25, 50 μM) dose-dependently inhibited TNF-α-induced endothelial cell activation and monocyte adhesion. However, the anti-inflammatory effects of UroA in TNF-α-stimulated human umbilical vein endothelial cells (HUVECs) were independent of NF-κB p65 pathway. We conducted RNA-sequencing profiling analysis to identify the differential expression of genes (DEGs) associated with vascular function, inflammatory responses, cell adhesion and thrombosis in UroA-pretreated HUVECs. Human disease enrichment analysis revealed that the DEGs were significantly correlated with cardiovascular diseases. We demonstrated that UroA pretreatment mitigated endothelial inflammation by promoting NO production and decreasing YAP/TAZ protein expression and TEAD transcriptional activity in TNF-α-stimulated HUVECs. On the other hand, we found that UroA administration modulated the transcription and cleavage of lipogenic transcription factors SREBP1/2 in the liver to ameliorate cholesterol metabolism in ApoE-/- mice. This study provides an experimental basis for new dietary therapeutic option to prevent atherosclerosis.

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来源期刊
Acta Pharmacologica Sinica
Acta Pharmacologica Sinica 医学-化学综合
CiteScore
15.10
自引率
2.40%
发文量
4365
审稿时长
2 months
期刊介绍: APS (Acta Pharmacologica Sinica) welcomes submissions from diverse areas of pharmacology and the life sciences. While we encourage contributions across a broad spectrum, topics of particular interest include, but are not limited to: anticancer pharmacology, cardiovascular and pulmonary pharmacology, clinical pharmacology, drug discovery, gastrointestinal and hepatic pharmacology, genitourinary, renal, and endocrine pharmacology, immunopharmacology and inflammation, molecular and cellular pharmacology, neuropharmacology, pharmaceutics, and pharmacokinetics. Join us in sharing your research and insights in pharmacology and the life sciences.
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