Endothelial Serotonin Receptor 1B Acts as a Mechanosensor to Drive Atherosclerosis.

IF 16.5 1区医学 Q1 CARDIAC & CARDIOVASCULAR SYSTEMS

Circulation research Pub Date : 2025-03-12 DOI:10.1161/CIRCRESAHA.124.325453

Minchun Jiang, Huanyu Ding, Yuhong Huang, Chi Wai Lau, Ying Guo, Jianfang Luo, Yu-Tsung Shih, Yin Xia, Xiaoqiang Yao, Jeng-Jiann Chiu, Li Wang, Shu Chien, Yu Huang

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引用次数: 0

Abstract

Background: Atherosclerosis is characterized by the accumulation of fatty and fibrotic plaques, which preferentially develop at curvatures and branches along the arterial trees that are exposed to disturbed flow. However, the mechanisms by which endothelial cells sense disturbed flow are still unclear.

Methods: The partial carotid ligation mouse model was used to investigate disturbed flow-induced atherogenesis. In vitro experiments were performed using the ibidi system to generate oscillatory shear stress and laminar shear stress. ApoE^-/- mice with endothelium-specific knockout or overexpression of 5-HT_1B (serotonin receptor 1B) were used to investigate the role of endothelial 5-HT_1B in atherosclerosis. RNA sequencing analysis, immunofluorescence analysis, and molecular biological techniques were used to explore the role of 5-HT_1B in mechanotransduction and endothelial activation.

Results: The data showed that human endothelial cells express a high level of 5-HT_1B, which is a serotonin receptor subtype. Endothelial 5-HT_1B is upregulated in atherosclerotic areas of both humans and rodents and is increased by disturbed flow both in vivo and in vitro. Endothelium-specific overexpression of 5-HT_1B exacerbates, whereas knockout or knockdown of 5-HT_1B in endothelium inhibits disturbed flow-induced endothelial inflammation and atherogenesis in both male and female ApoE^-/- mice. We reveal a previously unknown role of 5-HT_1B as a mechanosensor in endothelial cells in response to mechanical stimuli. Upon activation by oscillatory shear stress, 5-HT_1B recruits β-arrestin, orchestrates RhoA, and then activates mechanosensitive YAP (yes-associated protein), thereby enhancing endothelial inflammation and monocyte infiltration. Pharmacological blockade of 5-HT_1B suppresses endothelial activation and atherogenesis via inhibition of YAP.

Conclusions: Taken together, these results uncover that endothelial 5-HT_1B acts as a mechanosensor for disturbed flow and contributes to atherogenesis. Inhibition of 5-HT_1B could be a promising therapeutic strategy for atherosclerosis.

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内皮5 -羟色胺受体1B作为驱动动脉粥样硬化的机械传感器。

背景：动脉粥样硬化的特征是脂肪斑块和纤维化斑块的积累，这些斑块优先发生在动脉树暴露于血流紊乱的弯曲和分支处。然而，内皮细胞感知血流紊乱的机制尚不清楚。方法：采用颈动脉部分结扎小鼠模型，观察血流诱导的动脉粥样硬化。体外实验采用ibidi系统产生振荡剪切应力和层流剪切应力。采用内皮特异性敲除或5-HT1B（5-羟色胺受体1B）过表达的ApoE-/-小鼠，研究内皮5-HT1B在动脉粥样硬化中的作用。利用RNA测序分析、免疫荧光分析和分子生物学技术探讨5-HT1B在机械转导和内皮细胞活化中的作用。结果：数据显示，人内皮细胞高水平表达5-HT1B， 5-HT1B是5-羟色胺受体亚型。内皮5-HT1B在人和啮齿类动物的动脉粥样硬化区均上调，并且在体内和体外均因血流紊乱而升高。在雄性和雌性ApoE-/-小鼠中，内皮特异性的5-HT1B过表达会加剧，而在内皮中敲除或敲低5-HT1B可抑制血流紊乱诱导的内皮炎症和动脉粥样硬化。我们揭示了先前未知的5-HT1B在内皮细胞对机械刺激的反应中作为机械传感器的作用。在振荡剪切应力激活后，5-HT1B招募β-阻滞蛋白，协调RhoA，然后激活机械敏感性YAP (yes-associated protein, yes-associated protein)，从而增强内皮炎症和单核细胞浸润。药物阻断5-HT1B通过抑制YAP抑制内皮活化和动脉粥样硬化。综上所述，这些结果揭示了内皮细胞5-HT1B作为血流紊乱的机械传感器，有助于动脉粥样硬化的发生。抑制5-HT1B可能是一种很有前途的动脉粥样硬化治疗策略。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Circulation research 医学-外周血管病

CiteScore

29.60

自引率

2.00%

发文量

535

审稿时长

3-6 weeks

期刊介绍： Circulation Research is a peer-reviewed journal that serves as a forum for the highest quality research in basic cardiovascular biology. The journal publishes studies that utilize state-of-the-art approaches to investigate mechanisms of human disease, as well as translational and clinical research that provide fundamental insights into the basis of disease and the mechanism of therapies. Circulation Research has a broad audience that includes clinical and academic cardiologists, basic cardiovascular scientists, physiologists, cellular and molecular biologists, and cardiovascular pharmacologists. The journal aims to advance the understanding of cardiovascular biology and disease by disseminating cutting-edge research to these diverse communities. In terms of indexing, Circulation Research is included in several prominent scientific databases, including BIOSIS, CAB Abstracts, Chemical Abstracts, Current Contents, EMBASE, and MEDLINE. This ensures that the journal's articles are easily discoverable and accessible to researchers in the field. Overall, Circulation Research is a reputable publication that attracts high-quality research and provides a platform for the dissemination of important findings in basic cardiovascular biology and its translational and clinical applications.