Albiflorin Granule significantly decreased the cholesterol gallstone formation by the regulation of insulin transduction signal
10.1016/j.apjtm.2016.07.010
- Author:
Bang-Jiang FANG
1
;
Jun-Yi SHEN
1
;
Shuang ZHOU
2
;
Hua ZHANG
3
;
Chuan-Zhu LYU
3
;
Yi-Qiang XIE
4
Author Information
1. Emergency Department, Long Hua Hospital Affiliated to Shanghai University of Traditional Chinese Medicine
2. Changhai Hospital of Traditional Chinese Medicine, Second Military University
3. Traumatology Department, Affiliated Hospital of Hainan Medical University
4. College of Traditional Chinese Medicine, Hainan Medical University
- Publication Type:Journal Article
- Keywords:
Albiflorin;
Cholesterol gallstone;
Insulin resistance;
Insulin signal transduction
- From:
Asian Pacific Journal of Tropical Medicine
2016;9(9):877-881
- CountryChina
- Language:Chinese
-
Abstract:
Objective To study the mechanism of insulin resistance in the cholesterol gallstone formation from insulin signal transduction pathway so as to reveal the possible mechanism and the effective role of Albiflorin Granule on preventing the cholesterol gallstones. Methods Serum triglycerides (TG), free fatty acid (FFA), and total cholesterol (TC) from different groups were measured and liver cells InsR, PKB, IKK-β protein expression levels were detected by western blotting. Results Albiflorin significantly decreased the cholesterol gallstone formation rate, increased glucose infusion rate in gallstone guinea pigs and improved insulin resistance. Compared with the normal group, insulin receptor and PKB protein expression in GS group were significantly reduced. IKK-β protein in the GS group increased significantly and Albiflorin could reduce IKK-β protein expression in guinea pig liver cells. Conclusions The model of insulin resistance in cholesterol gallstone guinea pig was successfully established, which plays an important role in the cholesterol gallstone formation. All aspects of insulin signaling pathway are involved in gallstone formation. Albiflorin can regulate various aspects of insulin signal transduction pathway to prevent the formation of gallbladder.