肾素-血管紧张素-醛固酮系统在全身钠适度缺乏后控制动脉血压的作用：自由活动犬的平衡研究。

Institute of Physiology, Charité, Berlin, Germany.

Clin Exp Pharmacol Physiol. 2010 Feb;37(2):e43-51. doi: 10.1111/j.1440-1681.2009.05332.x. Epub 2009 Nov 23.

Total body sodium (TBS) is known as major determinant of arterial blood pressure (ABP) when TBS is increased, but little is known about ABP control following a deficit in TBS. The renin-angiotensin-aldosterone system (RAAS) controls ABP by controlling TBS via the Na-retaining effects of angiotensin (Ang) II and aldosterone, as well as through the vasoconstrictor action of AngII. In the present study, we investigated the role of RAAS elements in ABP control following moderate TBS deficit. 2. Balance studies of 4 days duration were performed in dogs. On Day 1, TBS was reduced by peritoneal dialysis (-3.5 mmol/kg bodyweight). On Days 1 and 2, dogs were on low Na intake (LSI; 0.5 mmol Na/kg bodyweight), whereas on Days 3 and 4 dogs were on high Na intake (HSI; 5.5 mmol Na/kg). In Protocol 1, the RAAS was left intact; in Protocol 2, angiotensin-converting enzyme was inhibited by infusion of the angiotensin-converting enzyme (ACE) inhibitor captopril (7 microg/kg per min) on Days 2-4; and in Protocol 3, in addition to ACE inhibition (ACE-I), mineralocorticoid receptors (MR) were blocked using 300 mg, p.o., spironolactone twice daily on Days 2-4. 3. During LSI, the TBS deficit could not be replenished and osmoregulation resulted in a deficit in total body water (TBW) of -12 to -15 mL/kg bodyweight. The RAAS was massively stimulated. In dogs with an intact RAAS, ABP did not decrease despite the TBW deficit. This was achieved by the vasoconstrictor action of AngII. At the same TBW deficit, ACE-I significantly lowered ABP by approximately 17 mmHg. In dogs with an intact RAAS, the deficit in TBS and TBW was immediately replenished when enough Na was offered (HSI). Even during ACE-I, the deficit was almost replenished. This was accomplished by AngII-independent stimulation of aldosterone release. Arterial blood pressure increased in parallel with TBW. With additional blockade of MR, the deficit was not replenished and ABP remained reduced. 4. These results indicate that with a moderate deficit in TBS and TBW, the RAAS is the major factor controlling ABP. First, the vasoconstrictive action of AngII fully compensates for the volume deficit. Second, stimulation of both renin release (and, thus, AngII and aldosterone) and aldosterone release independent of AngII is crucial for the restoration of TBS and TBW, thus controlling ABP.

当体内总钠量（TBS）增加时，它被认为是动脉血压（ABP）的主要决定因素，但当 TBS 不足时，对 ABP 的控制知之甚少。肾素-血管紧张素-醛固酮系统（RAAS）通过血管紧张素（Ang）II 和醛固酮的保钠作用以及 AngII 的血管收缩作用来控制 TBS，从而控制 ABP。在本研究中，我们研究了 RAAS 元素在适度 TBS 不足时对 ABP 控制的作用。
在狗身上进行了为期 4 天的平衡研究。第 1 天，通过腹腔透析（-3.5mmol/kg 体重）减少 TBS。第 1 天和第 2 天，狗摄入低钠（LSI；0.5mmol/kg 体重），而第 3 天和第 4 天，狗摄入高钠（HSI；5.5mmol/kg）。在方案 1 中，RAAS 保持完整；在方案 2 中，在第 2-4 天输注血管紧张素转换酶抑制剂卡托普利（7μg/kg/min）抑制血管紧张素转换酶（ACE）；在方案 3 中，除了 ACE 抑制（ACE-I）外，在第 2-4 天每天两次口服 300mg 螺内酯，阻断矿物质皮质激素受体（MR）。
在 LSI 期间，无法补充 TBS 不足，渗透调节导致全身总水量（TBW）不足-12 至-15ml/kg 体重。RAAS 受到了极大的刺激。在 RAAS 完整的狗中，尽管存在 TBW 不足，但 ABP 并未下降。这是通过 AngII 的血管收缩作用实现的。在相同的 TBW 不足时，ACE-I 可使 ABP 显著降低约 17mmHg。在 RAAS 完整的狗中，当提供足够的 Na 时，TBS 和 TBW 的不足立即得到补充（HSI）。即使在 ACE-I 期间，不足也几乎得到了补充。这是通过 AngII 独立刺激醛固酮释放来实现的。动脉血压与 TBW 平行升高。在额外阻断 MR 后，不足没有得到补充，ABP 仍然降低。
这些结果表明，在 TBS 和 TBW 适度不足的情况下，RAAS 是控制 ABP 的主要因素。首先，AngII 的血管收缩作用完全补偿了容量不足。其次，刺激肾素释放（因此，刺激 AngII 和醛固酮）以及 AngII 独立的醛固酮释放对于 TBS 和 TBW 的恢复至关重要，从而控制 ABP。