Melo L G, Veress A T, Chong C K, Ackermann U, Sonnenberg H
Department of Physiology, University of Toronto, Toronto, Ontario M5S 1A8, Canada.
Am J Physiol. 1999 Sep;277(3):R624-30. doi: 10.1152/ajpregu.1999.277.3.R624.
Mice harboring a functional deletion of the pro-atrial natriuretic peptide (ANP) gene (-/-) develop salt-sensitive hypertension relative to their wild-type (+/+) counterparts after prolonged (>1 wk) maintenance on high-salt (HS, 8% NaCl) diet. We reported recently that the sensitization of arterial blood pressure (ABP) to dietary salt in the -/- mice is associated with failure to downregulate plasma renin activity. To further characterize the role and mechanism of ANG II in the sensitization of ABP to salt in the ANP "knockout" mice, we measured ABP, heart rate (HR), and plasma catecholamine and aldosterone concentrations in -/- and +/+ mice maintained on HS for 4 wk and treated with daily injections of AT1 receptor antagonist DuP-753 (losartan) or distilled water (control). Daily food and water intake and fluid and electrolyte excretion were also measured during the first and last weeks of the dietary regimen. Cumulative urinary excretion of fluid and electrolytes did not differ significantly between genotypes and was not altered by chronic treatment with losartan. Basal ABP and HR were significantly elevated in control -/- mice compared with control +/+ mice. Losartan did not affect ABP or HR in +/+ mice, but reduced ABP and HR in the -/- mice to the levels in the +/+ mice. Total plasma catecholamine was elevated by approximately ten-fold in control -/- mice compared with control +/+ mice. Losartan reduced plasma catecholamine concentration significantly in -/- mice and abrogated the difference in plasma catecholamine between -/- and +/+ mice on HS diet. Plasma aldosterone did not differ significantly between genotypes and was not altered by losartan. We conclude that salt sensitivity of ABP in ANP knockout mice is mediated, at least in part, by a synergistic interaction between ANG II and sympathetic nerve activity.
与野生型(+/+)小鼠相比,携带心房利钠肽(ANP)基因功能缺失(-/-)的小鼠在高盐(HS,8%氯化钠)饮食下长期(>1周)维持后会出现盐敏感性高血压。我们最近报道,-/-小鼠动脉血压(ABP)对饮食盐的敏感性与血浆肾素活性未能下调有关。为了进一步阐明血管紧张素II(ANG II)在ANP“敲除”小鼠ABP对盐敏感性中的作用和机制,我们测量了在HS饮食下维持4周并每日注射AT1受体拮抗剂DuP-753(氯沙坦)或蒸馏水(对照)的-/-和+/+小鼠的ABP、心率(HR)以及血浆儿茶酚胺和醛固酮浓度。在饮食方案的第一周和最后一周还测量了每日食物和水的摄入量以及液体和电解质排泄量。不同基因型之间液体和电解质的累积尿排泄量没有显著差异,并且氯沙坦的长期治疗也未改变这一情况。与对照+/+小鼠相比,对照-/-小鼠的基础ABP和HR显著升高。氯沙坦对+/+小鼠的ABP或HR没有影响,但使-/-小鼠的ABP和HR降至+/+小鼠的水平。与对照+/+小鼠相比,对照-/-小鼠的总血浆儿茶酚胺升高了约10倍。氯沙坦显著降低了-/-小鼠的血浆儿茶酚胺浓度,并消除了HS饮食下-/-和+/+小鼠之间血浆儿茶酚胺的差异。不同基因型之间的血浆醛固酮没有显著差异,并且氯沙坦也未改变这一情况。我们得出结论,ANP基因敲除小鼠ABP的盐敏感性至少部分是由ANG II和交感神经活动之间的协同相互作用介导的。
