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  • Title: [Effects of RNA interference targeting angiotensin 1a receptor on the blood pressure and cardiac hypertrophy of rats with 2K1C hypertension].
    Author: Zhang JQ, Sun HL, Ma YX, Wang DW.
    Journal: Zhonghua Yi Xue Za Zhi; 2006 Apr 25; 86(16):1138-43. PubMed ID: 16796846.
    Abstract:
    OBJECTIVE: To investigate the effects of RNA interference (RNAi) targeting angiotensin 1a (AT1a) receptor on the blood pressure and cardiac hypertrophy of rats with 2K1C (2-kidney, 1-clip) hypertension. METHODS: Two kinds of RNAi plasmids, pAT1a-shRNA1 carrying an U6 promoter and an AT1a-specific shRNA-coding template sequence corresponding the sites 928 - 946 and pAT1a-shRNA2 carrying an U6 promoter and an AT1a-specific shRNA-coding template sequence corresponding the sites 978 - 996, and a blank plasmid pCon carrying a nonspecific shRNA-coding sequence were constructed. Thirty Sprague-Dawley rats underwent clipping of the left renal artery so as to establish two-kidney, one-clip (2K1C) hypertension models and then were randomly divided into 5 equal groups: pAT1a-shRNA1 group (injected with pAT1a-shRNA1 4 mg/kg only one time), pAT1a-shRNA2 group (injected with pAT1a-shRNA2 4 mg/kg only one time), pCon group (injected with pCon 4 mg/kg only one time), valsartan group (perfused into the stomach with valsartan, a AT1 receptor inhibitor 30 mg.kg(-1).d(-1), for 3 weeks), and control blank group (without any treatment). Three weeks later, the systolic pressure of the caudal artery was measured, catheterization through carotid artery was conducted to measure the systolic blood pressure (SBP) and diastolic blood pressure (DBP), and the left ventricular pressure curve was drawn. Then the rats were killed; the weight of the heart was measured, the ratio of left ventricle weight to body weight (LV/BW) was calculated, and pathological examination of the heart and thoracic aorta was performed. Western blotting was used to detect the protein expression of AT21 in the ventricle and aorta. Six age-matched healthy rats were used as normal controls. RESULTS: There was no significant difference in the caudal artery pressure among the 5 groups (all P > 0.05) before intervention. Three weeks later the caudal artery pressures of the blank control group and pCon group continued to significantly increase by about 25 mm Hg compared to the values before the intervention (both P < 0.001) and without significant difference between these 2 groups; however, the caudal artery pressures of the pAT1a-shRNA1, pAT1a-shRNA2, and valsartan groups were 15.1 mm Hg +/- 5.4 mm Hg, 16.4 mm Hg +/- 8.4 mm Hg, and 30.6 mm Hg +/- 18.2 mm Hg lower than those before the intervention respectively (all P < 0.01); and were also significantly lower than those of the blank groups (P < 0.01 or P < 0.05). There was no significant differences in the +/- dp/dt value and indicators of renal function among these groups. The carotid artery pressure of the pAT1a-shRNA1, pAT1a-shRNA2, and valsartan groups were 194 mm Hg +/- 5 mm Hg, 200 mm Hg +/- 5 mm Hg, and 164 mm Hg +/- 5 mm Hg, all significantly lower than those of the blank and pCon groups (234 mm Hg +/- 10 mm Hg and 232 mm Hg +/- 7 mm Hg respectively, all P < 0.01). The LV/BW of the pAT1a-shRNA1, pAT1a-shRNA2, and valsartan groups were 2.27 +/- 0.37, 2.31 +/- 0.26, and 2.26 +/- 0.39, all significantly lower than that of the blank and pCon groups (3.24 +/- 0.38 and 2.94 +/- 0.06, respectively, all P < 0.01), similar to that of the normal control group (P > 0.05). The myocardiocytes were significantly hypertrophic and the arterial tunica media was significantly thickened in the blank group and such changes were all improved to different degrees in the pAT1a-shRNA1, pAT1a-shRNA2, and valsartan groups. The protein expression levels of AT1 receptor in the myocardium of the pAT1a-shRNA and pAT1a-shRNA2 groups were lower by 53.3% and 47.8% respectively than that of the blank group, and the protein expression levels of AT1 receptor in the thoracic aorta of the pAT1a-shRNA and pAT1a-shRNA2 groups were lower by 58.7% and 49.3% respectively than that of the blank group (all P < 0.01); however, there were no significant difference in the protein expression levels of AT1 receptor in the myocardium and thoracic aorta between the valsartan and blank groups (both P > 0.05). CONCLUSION: RNA interference targeting AT1a receptor inhibits the development of renovascular hypertension and the accompanying cardiac hypertrophy. The RNAi technology may become a new strategy of gene therapy for hypertension.
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