Mattson D L, Maeda C Y, Bachman T D, Cowley A W
Department of Medical College of Wisconsin, Milwaukee 53226, USA.
Hypertension. 1998 Jan;31(1):15-20. doi: 10.1161/01.hyp.31.1.15.
In the present studies, the influence of inducible nitric oxide synthase (NOS) inhibition with aminoguanidine on renal function and blood pressure was examined in rats. Intravenous aminoguanidine infusion (60 mg x kg-1 x hr-1) for 40 minutes to anesthetized Sprague-Dawley rats (n=7) resulted in no significant changes in mean arterial pressure or renal cortical blood flow, while medullary blood flow was slightly increased. Despite minimal effects on renal blood flow, urine flow was significantly decreased from 14.2+/-2.7 to 10.4+/-2.3 microL x min-1 x g kidney wt-1 during aminoguanidine infusion. To examine the possible effects of inducible NOS on blood pressure, aminoguanidine (10 mg x kg-1 x h-1 IV) was infused chronically into uninephrectomized rats maintained on a high salt (4.0% NaCl) diet. Mean arterial pressure significantly increased from 104+/-2 to 118+/-3 mm Hg after 6 days of aminoguanidine infusion (n=7) and returned to levels not different from those in the control group after 2 days of postcontrol infusion. Calcium-independent NOS activity in the renal medulla, a tissue that expresses inducible NOS in normal rats, was significantly decreased by 49% in the aminoguanidine-infused group (n=6) compared with that activity in the vehicle-infused control animals (n=6). In contrast, calcium-dependent NOS activity in the renal medulla was not significantly altered by aminoguanidine infusion, indicating specificity of aminoguanidine for inducible NOS in these experiments. In a final group of rats (n=5), oral L-arginine administration in drinking water (2% wt/vol) increased plasma arginine levels from 118+/-5 to 232+/-16 micromol/L and blocked the increase in arterial pressure after 6 days of aminoguanidine infusion. The present experiments provide evidence supporting a role for inducible NOS in the control of arterial pressure, possibly by renal tubular effects.
在本研究中,检测了用氨基胍抑制诱导型一氧化氮合酶(NOS)对大鼠肾功能和血压的影响。对麻醉的Sprague-Dawley大鼠(n = 7)静脉输注氨基胍(60 mg·kg⁻¹·h⁻¹)40分钟,平均动脉压或肾皮质血流无显著变化,而髓质血流略有增加。尽管对肾血流影响极小,但在输注氨基胍期间,尿流率从14.2±2.7显著降至10.4±2.3 μL·min⁻¹·g肾重⁻¹。为检测诱导型NOS对血压的可能影响,将氨基胍(10 mg·kg⁻¹·h⁻¹静脉注射)长期输注到维持高盐(4.0% NaCl)饮食的单侧肾切除大鼠体内。输注氨基胍6天后(n = 7),平均动脉压从104±2显著升至118±3 mmHg,在停止输注后2天恢复到与对照组无差异的水平。在正常大鼠中表达诱导型NOS的肾髓质中,与输注溶剂的对照动物(n = 6)相比,输注氨基胍组(n = 6)中不依赖钙的NOS活性显著降低49%。相反,氨基胍输注对肾髓质中依赖钙的NOS活性无显著改变,表明在这些实验中氨基胍对诱导型NOS具有特异性。在最后一组大鼠(n = 5)中,饮用水中口服L-精氨酸(2%重量/体积)使血浆精氨酸水平从118±5升至232±16 μmol/L,并在输注氨基胍6天后阻止了动脉压的升高。本实验提供了证据,支持诱导型NOS在动脉压控制中发挥作用,可能是通过肾小管效应。
