Baicalin promotes migration and angiogenesis of endothelial progenitor cells but impedes thrombus formation via SIRT1/NF-κB signaling in a rat model of deep vein thrombosis.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS

ACS Applied Bio Materials Pub Date : 2024-07-26 DOI:10.14670/HH-18-799

Jinfeng Xie, Yonggui Liao, Dile Wang

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Abstract

Background: Deep vein thrombosis (DVT) is the third most prevalent vascular disease worldwide, seriously threatening human health. Baicalin, a flavonoid isolated from the roots of Scutellaria baicalensis, has been identified to play a crucial role in various vascular diseases. The study aimed to explore the efficacy and underlying mechanisms of baicalin in DVT.

Methods: Endothelial progenitor cells (EPCs) were differentiated from peripheral blood mononuclear cells isolated from rat bone marrow. Dil-ac-LDL/FITC-UEA-1 double staining and flow cytometry analysis were conducted for the identification of EPCs. The angiogenesis and migration of EPCs in vitro were tested by a tube formation assay and Transwell assay, respectively. DVT rat models were established by stenosis of the inferior vena cava (IVC). After the euthanasia of rats, thrombi in the IVC were collected and weighed, and histological alterations in IVC tissue were measured by H&E staining. The protein levels of SIRT1, p-P65, and p65 in rat IVC tissues were quantified via western blotting.

Results: EPCs used in this study displayed a spindle-like shape and were positive for endothelial cell-specific markers, suggesting the phenotypic characteristics of EPCs. Baicalin enhanced the migratory and angiogenetic abilities of EPCs in vitro. For in vivo experiments, baicalin reduced thrombus weight and mitigated DVT formation in model rats. Moreover, baicalin activated SIRT but repressed NF-κB signaling in IVC tissues of DVT rats.

Conclusion: Baicalin facilitates migration and angiogenesis of EPCs but impedes thrombus formation via regulation of SIRT1/NF-κB signaling in DVT model rats.

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在大鼠深静脉血栓形成模型中，黄芩苷可促进内皮祖细胞的迁移和血管生成，但通过SIRT1/NF-κB信号转导阻碍血栓形成。

背景：深静脉血栓（DVT）是全球第三大血管疾病，严重威胁人类健康。黄芩苷是从黄芩根中分离出来的一种黄酮类化合物，已被确认在各种血管疾病中发挥着重要作用。本研究旨在探讨黄芩苷对深静脉血栓的疗效及其内在机制：方法：从大鼠骨髓中分离的外周血单核细胞分化出内皮祖细胞（EPCs）。方法：从大鼠骨髓分离的外周血单核细胞中分化出内皮祖细胞（EPCs），采用 Dil-ac-LDL/FITC-UEA-1 双染色和流式细胞术分析鉴定 EPCs。EPC在体外的血管生成和迁移分别通过管形成试验和Transwell试验进行检测。通过下腔静脉（IVC）狭窄建立深静脉血栓大鼠模型。大鼠安乐死后，收集并称重下腔静脉中的血栓，用 H&E 染色法测量下腔静脉组织的组织学变化。大鼠 IVC 组织中的 SIRT1、p-P65 和 p65 蛋白水平通过 Western 印迹进行定量：结果：本研究中使用的EPC呈纺锤形，内皮细胞特异性标志物阳性，表明了EPC的表型特征。黄芩苷增强了EPCs在体外的迁移和血管生成能力。在体内实验中，黄芩苷可降低血栓重量，缓解模型大鼠深静脉血栓的形成。此外，黄芩苷激活了 SIRT，但抑制了深静脉血栓大鼠 IVC 组织中的 NF-κB 信号：结论：黄芩苷可促进 EPCs 的迁移和血管生成，但通过调节 SIRT1/NF-κB 信号，阻碍深静脉血栓模型大鼠血栓的形成。

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来源期刊

ACS Applied Bio Materials Chemistry-Chemistry (all)

CiteScore

9.40

自引率

2.10%

发文量

464