Effect of Rhodiola Sacra on Left Ventricular Remodeling and Its Mechanism in Spontaneously Hypertensive Rats

To investigate the effect of Rhodiola Sacra on left ventricular remodeling in spontaneously hypertensive rats (SHRs). Methods 30 male SHRs were randomly allocated into a treatment and a control group, which were intragastric administered with Rhodiola Sacra 500 mg/(kg·d) and water respectively. Tail systolic blood pressure (SBP) was monitored every two weeks. After 8 weeks, the body mass (BM) and left ventricle mass (LVM) of the rats were measured for computing the left ventricle mass index (LVMI). Plasma and myocardial homogenate angiotensin Ⅱ (AngⅡ), aldosterone (ALD) and the protein of myocardial homogenate were detected respectively by radioimmunoassay, and then the quantity of AngⅡ and ALD per gram protein was calculated. Myocardial specimen slides were stained with method of Masson staining, and myocardial collagen volume fraction (CVF) was calculated by a Computer Image System. Protein expression of AngⅡ type 1 receptor (AT1) in left ventricular myocardium were detected by immunohistochemistry technique, and calculated by a Computer Image System. Results Compared with the control group, there was a obvious decrease in SBP (P<0.05), LVMI (mg/g, 2.84±0.13 vs. 2.97±0.12, P=0.044), myocardial CVF (%,4.41±0.53 vs. 4.89±0.53, P=0.021), plasma AngⅡ (ng/L, 77.61±14.12 vs. 92.59±16.64, P=0.042), plasma ALD (ng/L, 73.52±18.61 vs. 90.11±19.67, P=0.005), myocardial AngⅡ (ng/g·protein, 40.03±5.36 vs. 46.02±6.78, P=0.005) or myocardial ALD (ng/g·protein, 37.61±6.25 vs. 43.70±5.09, P=0.049), whereas no significant difference was observed in the protein expression of AT1 in left ventricular myocytes between the two groups. Conclusion Rhodiola Sacra may prevent left ventricular remodeling in SHRs, which is probably attributed to blood pressure lowering and inhibition of RAS, especially myocardial RAS.

 

Keywords: Rhodiola Sacra, Hypertension, Left ventricular remodeling, Renin-angiotensin system

 

Williams В. Angiotension H and the pathophysiology of cardiovascular remodeling. Am J Cardiol,2001 ;87(8,supplel): 10-17.

Kim S, Yoshiyama M, Lzumi Y, et al. Effects of combination of ACE inhibitor and angiotensin receptor on cardiac remodeling, cardiac function, and survival in rat heart failure. Circulation,2001; 103( 1): 148-154.

К won YI, Jang НD. Shetty K. Evaluation of Rhodiola crenulata and Rhodiola rosea for management of type II diabetes and hypertension. Asia Рас J Clin Nutr,2006; 15(3): 433-441.

Shih CD, Kuo DH, Huang CW, et al. Autonomic nervous system mediates the cardiovascular effects of Rhodiola sacra radix in rats. J Ethnopharmacol.2008; 119(2) ;284-290.

Doering CW. Jalil JE, Janiki JS, et al. Collagen network remodeling and diastolic stiffness of the rat left ventricle with pressure overload hypertrophy. Cardiovasc Res,1988; 22( 10): 686-695.

Swynghedauw B, Chevalier B, Medigue C, et al. Molecuar basis of the regression of cardiac hypertrophy. J Card Fail, 1996;2(4 Suppl) ;S21-S27.

Brooks WW, Bing WW, Robinson KG, et al. Effect of angiotensin-converting enzyme inhibition on myocardial fibrosis and function in hypertrophied and failing myocardium from the spontaneously hypertensive rat. Circulation, 1997; 96 ( 11 ): 4002-4010.

Black MJ, Bertram JF, Campbell JH, et al. Angiotensin 11 induces cardiovascular hypertrophy in perinodpril-treated rats. Hypertension, 1995; 13(6) ;571-711.

Mascareno E, Siddiqui MA. The role of Jak/STAT singaling in heart tissue rennin- angiotesin system. Mol Cell Bioche,2000; 212(1-2):171-175.

Gordon M. Angiotension H Antagonists. London:Science Press Ltd,1998:1-39.

Sadoshima J, Tzumo S, Xu Y. et al. Autocrine releases of angiotensin II mediates strech-induced hypertrophy of cardiac myocytes in vitro. Cell , 1993; 75( 5): 977-984.

Yamazaki T, Kornuro J, Kudoh S, et al. Angiotension II partly mediates mechanical stress-induced cardiac hypertrophy. Circ Res, 1995; 77(2):258-265.

Suzuki J, Matsubara H, Urakami M. et al. Angiotensin II (type 1Л) receptor mRNA regulation and subtype expression in myocardial growth and hypertrophy. Circ Res. 1993 ; 73( 3) : 439-447.

Slight SH. Jeseph J, Ganjam VK. Et al. Extral-adrenal mineralocorticoids and cardiovascular tissue. Mol Cell Cardiol, 1999;31(6):1175-1184.

Brilla CC, Zhou G, Matsubara L, et al. Collagen metabolism in cultured adult rat cardiac fibroblasts; response to angiotensin II and aldosterone. J Mol Cell Cardol. 1994 ;26(7):809-820.

Robert V, Silestre JS, Charlemagne D. et al. Biological determinants of aldosterone induced cardiac fibrosis in rats. Hypertension, 1995;26(4);971-987.