Thomson Scott C, Deng Aihua, Wead Lucinda, Richter Kerstin, Blantz Roland C, Vallon Volker
Department of Medicine, Division of Nephrology - Hypertension, University of California, San Diego, California 92161, USA.
J Clin Invest. 2006 Apr;116(4):1110-6. doi: 10.1172/JCI26092. Epub 2006 Mar 23.
We set out to confirm the long-held, but untested, assumption that dietary salt affects proximal reabsorption through reciprocal effects on the renin-angiotensin system in a way that facilitates salt homeostasis. Wistar rats were fed standard or high-salt diets for 7 days and then subjected to renal micropuncture for determination of single-nephron GFR (SNGFR) and proximal reabsorption. The tubuloglomerular feedback (TGF) system was used as a tool to manipulate SNGFR in order to distinguish primary changes in net proximal reabsorption (Jprox) from changes due to glomerulotubular balance. The influence of Ang II over Jprox was determined by the sensitivity of Jprox to the AT1 receptor antagonist, losartan. Plasma, whole kidneys, and fluid from midproximal tubules were assayed for Ang II content by radioimmunoassay. In rats on the standard diet, losartan reduced Jprox by 25% and reduced the maximum range of the TGF response by 50%. The high-salt diet suppressed plasma and whole-kidney Ang II levels. But the high-salt diet failed to reduce the impact of losartan on Jprox or the TGF response and actually caused tubular fluid Ang II content to increase. The persistent effect of Ang II on Jprox prevented a major rise in late proximal flow rate in response to the high-salt diet. These observations challenge the traditional model and indicate that the role of proximal tubular Ang II in salt-replete rats is to stabilize nephron function rather than to contribute to salt homeostasis.
我们着手去证实一个长期以来一直存在但未经检验的假设,即饮食中的盐通过对肾素 - 血管紧张素系统的相互作用影响近端重吸收,从而促进盐稳态。将Wistar大鼠喂以标准或高盐饮食7天,然后进行肾微穿刺以测定单肾单位肾小球滤过率(SNGFR)和近端重吸收。肾小管 - 肾小球反馈(TGF)系统被用作操纵SNGFR的工具,以便区分近端净重吸收(Jprox)的原发性变化与由于球管平衡引起的变化。通过Jprox对AT1受体拮抗剂氯沙坦的敏感性来确定Ang II对Jprox的影响。通过放射免疫测定法测定血浆、全肾和近端小管中段的液体中的Ang II含量。在标准饮食的大鼠中,氯沙坦使Jprox降低了25%,并使TGF反应的最大范围降低了50%。高盐饮食抑制了血浆和全肾中的Ang II水平。但是高盐饮食未能降低氯沙坦对Jprox或TGF反应的影响,实际上还导致肾小管液中Ang II含量增加。Ang II对Jprox的持续作用阻止了高盐饮食引起的近端晚期流速的大幅上升。这些观察结果对传统模型提出了挑战,并表明在盐充足的大鼠中近端小管Ang II的作用是稳定肾单位功能,而不是促进盐稳态。