Zedoarondiol Inhibits Neovascularization in Atherosclerotic Plaques of ApoE<sup>-/-</sup> Mice by Reducing Platelet Exosomes-Derived MiR-let-7a

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Zedoarondiol Inhibits Neovascularization in Atherosclerotic Plaques of ApoE^-/- Mice by Reducing Platelet Exosomes-Derived MiR-let-7a

Original Article | Updated：2025-02-24

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- Zedoarondiol Inhibits Neovascularization in Atherosclerotic Plaques of ApoE^-/- Mice by Reducing Platelet Exosomes-Derived MiR-let-7a
- Chinese Journal of Integrative Medicine Vol. 31, Issue 3, Pages: 228-239(2025)
- Affiliations：
  
  1.Cardiovascular Department, Xiyuan Hospital, China Academy of Chinese Medical Sciences, Beijing (100091), China
  2.Cardiovascular Department, Beijing Hospital of Integrated Chinese and Western Medicine, Beijing (100091), China
  3.Graduate School of Beijing University of Chinese Medicine, Beijing (100091), China
  4.National Clinical Research Center for Chinese Medicine Cardiology, Beijing (100091), China
- Author bio：
  
  Prof. ZHAO Fu-hai, E-mail: 13911134962@163.com
- Funds：
- DOI：10.1007/s11655-024-4003-2
  CLC：
- Accepted：2024-08-12，
  
  Published Online：06 December 2024，
  
  Published：2025-03
- Accepted：
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XIE Bei-li, SONG Bo-ce, LIU Ming-wang, et al. Zedoarondiol Inhibits Neovascularization in Atherosclerotic Plaques of ApoE^-/- Mice by Reducing Platelet Exosomes-Derived MiR-let-7a[J]. Chinese journal of integrative medicine, 2025, 31(3): 228-239.
DOI：

XIE Bei-li, SONG Bo-ce, LIU Ming-wang, et al. Zedoarondiol Inhibits Neovascularization in Atherosclerotic Plaques of ApoE^-/- Mice by Reducing Platelet Exosomes-Derived MiR-let-7a[J]. Chinese journal of integrative medicine, 2025, 31(3): 228-239. DOI： 10.1007/s11655-024-4003-2.

摘要

目的:

2

探讨莪术奥酮二醇对动脉粥样硬化 (atherosclerotic

AS) 斑块新生血管形成的影响.

方法:

2

高脂饮食喂养ApoE-/-小鼠构建AS模型

并给予莪术奥酮二醇干预14周

检测斑块中抗血管生成蛋白血栓反应蛋白1 (thrombospondin 1

THBS-1) 及其受体CD 36的表达

以及血小板活化率和外泌体源miR-let-7a表达水平. 然后用莪术奥酮二醇体外干预血小板

在血小板来源外泌体 (platelet-derived exosomes

Pexo) 中检测miR-let-7a. 最后将miR-let-7a minics转染人脐静脉内皮细胞 (human umbilical vein endothelial cell

HUVEC)

用Pexo处理

观察Pexo中miR-let-7a对血管形成的影响.

结果:

2

动物实验显示

莪术奥酮二醇治疗后

AS小鼠斑块内新生血管密度明显降低

THBS-1和CD 36水平升高

血小板活化率明显降低

Pexo中miR-let-7a水平明显降低 (

P

<

0.01) . 在体外实验中

莪术奥酮二醇干预后

Pexo的血小板活化率和miR-let-7a水平显著降低. 细胞实验显示

Pexo干预后

微管长度增加

转染miR-let-7a minics后

细胞的微管长度进一步增加

同时THBS-1和CD 36的表达降低.

结论:

2

莪术奥酮二醇具有抑制AS模型小鼠斑块内新生血管形成的作用

其作用机制可能与抑制血小板活化和降低Pexo来源的miRNA-let-7a水平有关.

Abstract

Objective:

2

To investigate the effect of zedoarondiol on neovascularization of atherosclerotic (AS) plaque by exosomes experiment.

Methods:

2

ApoE

-/-

mice were fed with high-fat diet to establish AS model and treated with high- and low-dose (10

5 mg/kg daily) of zedoarondiol

respectively. After 14 weeks

the expressions of anti-angiogenic protein thrombospondin 1 (THBS-1) and its receptor CD36 in plaques

as well as platelet activation rate and exosome-derived miR-let-7a were detected. Then

zedoarondiol was used to intervene in platelets

in vitro

and miR-let-7a was detected in platelet-derived exosomes (Pexo). Finally

human umbilical vein endothelial cells (HUVECs) were transfected with miR-let-7a mimics and treated with Pexo to observe the effect of miR-let-7a in Pexo on tube formation.

Results:

2

Animal experiments showed that after treating with zedoarondiol

the neovascularization density in plaques of AS mice was significantly reduced

THBS-1 and CD36 increased

the platelet activation rate was markedly reduced

and the miR-let-7a level in Pexo was reduced (

P

<

0.01).

In vitro

experiments

the platelet activation rate and miR-let-7a levels in Pexo were significantly reduced after zedoarondiol's intervention. Cell experiments showed that after Pexo's intervention

the tube length increased

and the transfection of miR-let-7a minics further incre

ased the tube length of cells

while reducing the expressions of THBS-1 and CD36.

Conclusion:

2

Zedoarondiol has the effect of inhibiting neovascularization within plaque in AS mice

and its mechanism may be potentially related to inhibiting platelet activation and reducing the Pexo-derived miRNA-let-7a level.

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