大气细颗粒物对CHO细胞的损伤作用及天然物质的拮抗机制

郭辰; 毕婷婷; 陈世杰; 赵晓红; 刘涛; 孙健

1. 北京联合大学功能食品科学技术研究院;

2. 首都师范大学生命科学学院

作者简介: 郭辰(1988-),女,研究生,研究方向为毒理学,E-mail:chenpreteen@sina.com

通讯作者: 赵晓红, E-mail: xiaohong@buu.edu.cn ;

基金项目:

北京市教育委员会科技计划重点项目(KZ201211417041)

中图分类号: X171.5

The Detrimental Effects of PM_2.5 and the Protective Effects of Bioactive Compounds on CHO Cell

1. Research Institute for Science and Technology of Functional food, Beijing Union University;

2. School of Life Science, Capital Normal University

Corresponding author: Zhao Xiaohong, xiaohong@buu.edu.cn ;

Fund Project:

摘要: PM_2.5引起的健康危害日益受到广泛关注,但其确切的损伤机理仍不完全清楚,目前也缺乏有效拮抗PM_2.5损伤的天然活性物质。因此本文对北京市PM_2.5造成CHO细胞的损伤作用及天然物质的拮抗作用进行研究,结果可为PM_2.5污染治理和疾病的预防提供科学依据。通过CCK-8法测定细胞存活率;通过流式细胞仪测定细胞凋亡;用荧光探针DCFH-DA法测定ROS;提取细胞内总蛋白并测定其中SOD含量;以及通过Western Blot法分别测定了p-akt/akt、p65及Bad的相对表达量。结果显示:(1)10~40μg·mL^-1的PM_2.5可明显降低CHO细胞存活率,并呈现极显著的剂量-效应关系(r=-0.964,P<0.01);15μg·mL^-1PM_2.5可以显著增加细胞凋亡、引起细胞内ROS增加、SOD含量下降;p-akt/akt、p65表达量增加说明Akt通路与NF-κB通路均被激活。(2)20μmol·L^-1阿魏酸、50μmol·L^-1绿原酸和10μmol·L^-1荭草素预处理可拮抗PM_2.5引起的细胞存活率下降以及细胞凋亡率增加,同时降低细胞内ROS并增加SOD含量,下调p-akt/akt、p65及Bad的相对表达量。其中20μmol·L^-1阿魏酸的保护作用最佳。结果说明,PM_2.5引起的CHO细胞损伤与细胞凋亡与Akt和NF-κB通路的激活有关;三种天然活性物质具有拮抗PM_2.5造成的细胞损伤的能力,其保护机理是通过其降低PM_2.5引起的细胞内氧化应激反应,进而降低被PM_2.5激活的Akt通路与NF-κB通路和下调Bad蛋白表达量来实现的。

Abstract: Fine particulate matters (PM_2.5) cause health problems that have brought great deal of concern. However, the mechanisms by which PM_2.5 involved casus detrimental effects and the antagonism of bioactive compounds are still unclearcurrently unknown. The detrimental effects of PM_2.5 collected in Beijing and the antagonism of Ferulic acid (FA), Chlorogenic acid (CA) and Orientin (ORI) on CHO cell were studied in this research and provid-ed basic information for controlling the air pollution control and the subsequent respiratory diseases. CCK-8 assay was used to detect the cell viability, while cell apoptosis was detected with a Flow Cytometry. The gene expression of p-akt, akt, p65 and Bad were analyzeddetected with a Western Blot analysis. Intracellular ROS and SOD level were measured with the fluorescent probe DCFH-DA and WST-1, respectively. Results showed that 10~40 μg·mL^-1 PM_2.5 reduced cell viability in a dose dependent manner (r=-0.964, P<0.01). 15 μg·mL^-1 of PM_2.5 dramatically remarkebly reduces the cell viability and as well as SOD level andas well asincreased the apoptotic rate and the intracellular ROS in CHO cells. It also up-regulated the gene expressions of p-akt/akt and p65 which indicated the activation of Akt and NF-κB signaling pathways. Pretreatments with 20 μmol·L^-1 FA, 50 μmol·L^-1 CA and 10 μmol·L^-1 ORI maintained CHO cell viability and reduced PM_2.5 -induced apoptosisthrough the down-regulate reduction of the intracellular ROS, up-regulated SOD, and the down-regulated p-akt/akt, p65 and Bad. Taking together, PM_2.5 causes damage on CHO cells through a variety of mechanisms, and the bioactive compounds can attenuated these effects by reducing oxidative stress and the over-up-regulatedinduction of Akt and NF-κB pathways.

Key words:

大气细颗粒物对CHO细胞的损伤作用及天然物质的拮抗机制

通讯作者: 赵晓红, E-mail: xiaohong@buu.edu.cn ;

作者简介: 郭辰(1988-),女,研究生,研究方向为毒理学,E-mail:chenpreteen@sina.com
1. 北京联合大学功能食品科学技术研究院;

2. 首都师范大学生命科学学院

收稿日期: 2014-04-11

基金项目:

北京市教育委员会科技计划重点项目(KZ201211417041)

关键词:

The Detrimental Effects of PM_2.5 and the Protective Effects of Bioactive Compounds on CHO Cell

Corresponding author: Zhao Xiaohong, xiaohong@buu.edu.cn ;

1. Research Institute for Science and Technology of Functional food, Beijing Union University;

2. School of Life Science, Capital Normal University

Received Date: 2014-04-11

Fund Project:

Keywords:

全文HTML

参考文献 (0)