Cellular uptake characteristics of salvianolic acid B in myocardial cells and blood vessel endothelial cells
10.3321/j.issn:1000-5048.2009.03.015
- VernacularTitle:丹酚酸B在心肌细胞和血管内皮细胞内的摄取特性
- Author:
Jingping SHAO
;
Shanfei ZHANG
;
Yuancheng CHEN
;
Wenliang YANG
;
Xiaoquan LIU
- Publication Type:Journal Article
- Keywords:
salvianolic acid B;
myocardial cells;
endothelial cells;
uptake
- From:
Journal of China Pharmaceutical University
2009;40(3):263-268
- CountryChina
- Language:Chinese
-
Abstract:
Aim: To determine the uptake characteristics of salvianolic acid B(Sal B) in myocardial cells and blood vessel endothelial cells. Method: The effects of various factors, such as time, temperature, drug concentration, pH of the medium, on the uptake of Sal B in myocardial cells and aorta endothelial cells were investigated. LC/MS was employed to determine the intracellular concentration of Sal B. Results: Uptake kinetics of Sal B in the myocardial cells and aorta endothelial cells fitted well to the logarithmic model at 37 ℃ and 4 ℃. The a-mount of uptake was in direct proportion to the extracellular concentration of Sal B in the experimental concentration range. Uptake of Sal B both in the myocardial cells and blood vessel endothelial cells would significantly increase while the medium pH decreased, and some water-soluble components extracted from danshen would also facilitate the uptake of Sal B both in the myocardial cells and blood vessel endothelial cells obviously. The energy metabolism inhibitors would significantly inhibit the uptake of Sal B in the myocardial cells and blood vessel endothelial cells. When lactic acid and fatty acid were added to the incubation solution, the uptake of Sal B both in the myocardial cells and aorta endothelial cells increased more than 20%. Conclusion: pH is the most important factor influencing the cellular uptake of Sal B, and the amount of uptake tends to increase in acidic medium. Results suggest that the uptake of Sal B would increase in the acidified internal environment induced by myocardial ischemia, thus exerting better cardiovascular activities.
