Nitric Oxide Modulation of Neurally Induced Proximal Tubular Fluid Reabsorption in the Rat

Hypertension: Journal of the American Heart Association Pub Date : 2002-03-01 DOI:10.1161/HY0302.105681

Xiao Chun Wu, E. Johns

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引用次数: 31

Abstract

This study investigated the role of NO in mediating the renal sympathetic nerve–mediated increases in proximal tubular fluid reabsorption (Jva). In inactin-anesthetized Wistar rats, renal sympathetic nerve stimulation (15 V, 2 ms) at 0.75 and 1.0 Hz did not change blood pressure or glomerular filtration rate but did decrease urine flow and sodium excretion in a frequency-related fashion by 40% to 50% at 1.0 Hz (both, P <0.01). Renal nerve stimulation in control animals increased Jva by 11% at 0.75 Hz (P <0.05) and 31% at 1.0 Hz (P <0.01). Intraluminal N&ohgr;-nitro-l-arginine methyl ester (L-NAME) resulted in a higher basal Jva (19%, P <0.05), and renal nerve stimulation had no effect on Jva. When L-NAME plus sodium nitroprusside was present intraluminally, however, there were frequency-dependent increases in Jva that were similar in pattern and magnitude to the control rats. Introduction of the relatively selective nNOS blocker 7-nitroindazole intraluminally, at 10−6 and 10−4 M, raised basal Jva by 18% and 24%, respectively (P <0.01), and renal nerve stimulation did not change Jva. Intraluminal aminoguanidine (10−4 M), a relatively selective iNOS blocker, did not affect basal Jva, which remained unchanged during renal nerve stimulation. These data are consistent with NO exerting a tonic inhibitory action on the basal levels of Jva, which, in part, is caused by NO generated by the nNOS isoform. Moreover, the findings have revealed that the presence of NO is necessary to ensure that renal nerves can stimulate fluid reabsorption by the proximal tubules, requiring NO generated from both nNOS and iNOS.

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一氧化氮对大鼠神经诱导的近端小管液体重吸收的调节作用

本研究探讨一氧化氮在肾交感神经介导的近端肾小管液体重吸收(Jva)增加中的作用。在不动蛋白麻醉的Wistar大鼠中，肾交感神经刺激(15 V, 2 ms)在0.75和1.0 Hz下没有改变血压或肾小球滤过率，但在1.0 Hz下，尿流量和钠排泄以频率相关的方式减少了40%至50% (P <0.01)。对照动物肾神经刺激在0.75 Hz时使Jva升高11% (P <0.05)，在1.0 Hz时使Jva升高31% (P <0.01)。腔内N&ohgr;-硝基-l-精氨酸甲酯(L-NAME)导致基础Jva升高(19%，P <0.05)，肾神经刺激对Jva无影响。然而，当L-NAME加硝普钠存在于腔内时，Jva出现频率依赖性增加，其模式和幅度与对照大鼠相似。在10−6 M和10−4 M时，在腔内注射选择性较强的nNOS阻滞剂7-硝基吲哚唑，基底Jva分别升高18%和24% (P <0.01)，而肾神经刺激对Jva无影响。腔内氨基胍(10−4 M)是一种相对选择性的iNOS阻滞剂，对基底Jva没有影响，在肾神经刺激过程中，基底Jva保持不变。这些数据与NO对Jva基础水平的强直抑制作用一致，这在一定程度上是由nNOS异构体产生的NO引起的。此外，研究结果表明，NO的存在对于确保肾神经能够刺激近端小管的液体重吸收是必要的，这需要nNOS和iNOS同时产生NO。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Hypertension: Journal of the American Heart Association

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