Gandhi S K, Ryder D H, Brown N J
Vanderbilt University Medical Center, Department of Medicine, Nashville, Tenn, USA.
Hypertension. 1996 Dec;28(6):961-6. doi: 10.1161/01.hyp.28.6.961.
In vitro and animal studies have demonstrated that the effect of angiotensin II (Ang II) on aldosterone is mediated through the Ang II type 1 receptor. However, it has been difficult to demonstrate an effect of Ang II type 1 receptor blockade on aldosterone levels in human studies. One possible explanation is that subjects have not been studied under salt-controlled conditions. Therefore, we examined the effects of losartan on the aldosterone and renal plasma flow responses to Ang II infusion in six normotensive subjects under low and high salt conditions. Ang II was infused in graded doses (0.3 to 10 ng/kg per minute) in the presence and absence of losartan (a single 50-mg oral dose). Renal plasma flow was assessed by measurement of para-aminohippurate clearance. Blood pressure, plasma aldosterone levels (low salt conditions only), and para-aminohippurate clearance were measured before and after each Ang II dose. Losartan had no effect on baseline systolic pressure but attenuated the systolic pressure response to exogenous Ang II during both low salt (0.7 +/- 1.9 versus 6.7 +/- 1.4 mm Hg, P = .001) and high salt (2.0 +/- 1.9 versus 12.3 +/- 2.1 mm Hg, P = .006) conditions. Under low salt conditions, losartan reduced the baseline plasma aldosterone level from 1135 +/- 204 to 558 +/- 102 pmol/L (P = .015) and blocked the aldosterone response to Ang II (-49 +/- 110 versus +436 +/- 83 pmol/L, P = .019). During high salt conditions, losartan had no effect on baseline renal plasma flow but attenuated the renal plasma flow response to Ang II (-90.1 +/- 15.1 versus -185.1 +/- 2.6 mL/min per 1.73 m2, P = .013). These data confirm that losartan lowers both basal and exogenous Ang II-stimulated aldosterone levels under low salt conditions. Losartan does not significantly affect baseline renal plasma flow but does attenuate the renal plasma flow response to exogenous Ang II under high salt conditions.
体外和动物研究表明,血管紧张素II(Ang II)对醛固酮的作用是通过1型血管紧张素II受体介导的。然而,在人体研究中很难证明1型血管紧张素II受体阻断对醛固酮水平的影响。一种可能的解释是,此前研究的受试者并非处于盐控制条件下。因此,我们研究了在低盐和高盐条件下,氯沙坦对6名血压正常受试者输注Ang II时醛固酮及肾血浆流量反应的影响。在有和没有氯沙坦(单次口服50毫克剂量)的情况下,以分级剂量(每分钟0.3至10纳克/千克)输注Ang II。通过测量对氨基马尿酸清除率来评估肾血浆流量。在每次输注Ang II前后测量血压、血浆醛固酮水平(仅在低盐条件下)和对氨基马尿酸清除率。氯沙坦对基线收缩压无影响,但在低盐(0.7±1.9对6.7±1.4毫米汞柱,P = 0.001)和高盐(2.0±1.9对12.3±2.1毫米汞柱,P = 0.006)条件下均减弱了对外源性Ang II的收缩压反应。在低盐条件下,氯沙坦将基线血浆醛固酮水平从1135±204皮摩尔/升降至558±102皮摩尔/升(P = 0.015),并阻断了醛固酮对Ang II的反应(-49±110对+436±83皮摩尔/升,P = 0.019)。在高盐条件下,氯沙坦对基线肾血浆流量无影响,但减弱了肾血浆流量对Ang II的反应(-90.1±15.1对-185.1±2.6毫升/分钟每1.73平方米,P = 0.013)。这些数据证实,氯沙坦在低盐条件下可降低基础和外源性Ang II刺激的醛固酮水平。氯沙坦对基线肾血浆流量无显著影响,但在高盐条件下确实减弱了肾血浆流量对外源性Ang II的反应。
