1. Academic Validation
  2. [Protective effect of ligustrazine hydrochloride on homocysteine-injured ECV304 cells]

[Protective effect of ligustrazine hydrochloride on homocysteine-injured ECV304 cells]

  • Zhongguo Zhong Yao Za Zhi. 2012 Jun;37(12):1836-9.
Dongming Xu 1 Dan Wu
Affiliations

Affiliation

  • 1 Management Center of Innovation Fund for Small Technology-based Firms, Ministry of Science and Technology, Beijing 100038, China. ywzhou@pku.edu.cn
PMID: 22997835
Abstract

Objective: To detect the protective effect of ligustrazine hydrochloride on homocysteine-injured ECV304 cells.

Method: In the in vitro study, human umbilical vein endothelial cells were selected as objects, with homocysteine as the molding agent, to judge the injury degree by monitoring NOS and NO contents. Based on that, the best homocysteine concentration in ECV304 cells, the best reaction time could be determined, and an endothelial cell injury model was established. After adding ligustrazine hydrochloride, NOS and NO contents in injured endothelial cells were determined to observe the protective effect of ligustrazine hydrochloride.

Result: It was proved that the optimal concentration of homocysteine on injured ECV304 cell was 1 mmol x L(-1), the best reaction time was 48 h. An injured endothelial cell model was established. At the same time, positive drug nitroglycerin and ligustrazine hydrochloride displayed a protection effect on injured ECV304 cells, NOS and NO formation were significantly increased compared with the model group.

Conclusion: Ligustrazine hydrochloride has a protective effect on homocysteine-injured ECV304 cells. The model established in this study can be used to screen anti-myocardial ischemia drugs targeting at an endothelial cell protective agent.

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