[Proteomics analysis of erythrocyte membrane in rats with high altitude polycythemia before and after intervention with salidroside].

To investigate the effect of salidroside on the proteomics of erythrocyte membrane in high altitude erythrocytosis(HAPC) rats, in order to explore the mechanism of salidroside in improving HAPC based on the proteomics analysis. First, HPAC rat models were established, and 16 rats were randomly divided into HAPC model group and salidroside(100 mg·kg~(-1)) treatment group(8 rats per group). Saline was administered to the HAPC model group, while salidroside treatment group was given 100 mg·kg~(-1) salidroside once a day. After continuous oral administration with salidroside for 40 days(once a day), blood was collected from the femoral artery to obtain total red blood cell membrane proteins. Two-dimensional electrophoresis was used to separate total proteins. The two-dimensional electrophoresis of erythrocyte membrane proteins was analyzed before and after salidroside intervention, and the proteins with significant differences were identified by mass spectrometry. Finally, biological functions were analyzed using bioinformatics. A two-dimensional electrophoresis method was used to establish a protein expression profile with a high resolution and reproducibility of erythrocyte membranes in HAPC rats. Salidroside treatment significantly changed 18 protein spots in the 2-DE map of erythrocyte membranes, of which 13 proteins were up-regulated and 5 proteins were down-regulated. Eight differential proteins were successfully identified by mass spectrometry. Moreover, bioinformatics analysis found that these differential proteins were involved in such biological processes as oxidative stress, redox, and peroxisome pathway, which are mainly associated with peroxisome and MAPK signaling pathways. Therefore, salidroside could significantly change the expressions of erythrocyte membrane proteins in HAPC rats. Eight differential proteins were identified by a proteomic-based approach. The differential proteins were involved in such biological processes as oxidative stress, redox, peroxisome pathway.

Effects of salidroside on structure and function of erythrocyte membrane in high altitude polycythemia rats / 中草药

Objective: To investigate the effects of salidroside on the structure and function of erythrocyte membrane in rats with high altitude polycythemia (HAPC), and to provide the scientific basis for the mechanism of salidroside preventing and treating HAPC. Methods: A total of 40 Wistar rats were randomly divided into five groups, control group, HAPC model group, salidroside high-dose (200 mg/kg), medium-dose (100 mg/kg), and low-dose (50 mg/kg) groups, four female and four male rats in each group. In addition to the control group, the remaining four groups established the HAPC model. The rats in the control group and model group were ig administered with saline, and rats in salidroside group were treated with different doses of salidroside at the same time. The dosage volume was 10 mL/kg, and once a day for 40 d. After the administration, blood was collected from femoral artery of the rats. Biochemical and enzyme-linked immunoassay were used to determine the lipid fluidity of erythrocyte membrane, total cholesterol content, total phospholipids content, the content of phospholipid components including phosphatidic acid (PA), phosphatidylcholine (PC), phosphatidylethanolamine (PE), phosphatidylserine (PS), the activity of Na+, K+-ATPase and Ca2+, Mg2+-ATPase on erythrocyte membrane, and the concentrations of Na+ and Ca2+ in erythrocyte. Results: Salidroside can significantly improve the lipid fluidity, total phospholipids, PA, PC, PE, and PS content of erythrocyte membrane, and improve the activity of Na+, K+-ATPase and Ca2+, Mg2+-ATPase of erythrocyte membrane in HAPC rats. Total cholesterol content on erythrocyte membrane, and the concentrations of sodium and calcium in erythrocyte were significantly reduced. Conclusion: These findings suggested that salidroside can improve the function of erythrocyte membrane and cell metabolic activities by regulating the lipid composition of erythrocyte membrane, thereby alleviating the symptoms associated with high altitude polycythemia.