Iadecola C, Yang G, Xu S
Laboratory of Cerebrovascular Biology and Stroke, University of Minnesota Medical School, Minneapolis 55455, USA.
Am J Physiol. 1996 Apr;270(4 Pt 2):R914-9. doi: 10.1152/ajpregu.1996.270.4.R914.
We used the relatively selective inhibitor of neuronal nitric oxide synthase 7-nitroindazole (7-NI) to test the hypothesis that the increases in local cerebellar blood flow (BFcrb) elicited by activation of the cerebellar parallel fibers (PF) are mediated by neuronal production of nitric oxide. In halothane-anesthetized rats, the cerebellar cortex was exposed and superfused with Ringer solution (37 degrees C; pH 7.3-7.4). The PF were stimulated electrically (100 microA, 30 Hz, 40 s), while BFcrb was monitored at the site of stimulation by a laser-Doppler flow probe. In vehicle-treated rats (n = 5), PF stimulation increased BFcrb by 61 +/- 5% (P < 0.05; analysis of variance and Tukey's test). 7-NI attenuated the increase in BFcrb dose dependently (10-100 mg/kg i.p.; n = 5 animals/dose) and by 55 +/- 7% at 100 mg/kg (P < 0.05). The attenuation of the response to PF stimulation was correlated with the degree of inhibition of calcium-dependent brain nitric oxide synthase activity, measured ex vivo by the citrulline assay (n = 21). 7-NI also attenuated the cerebrovasodilation elicited by hypercapnia (PCO2 = 50-60 mmHg) but did not affect the vasodilation evoked by acetylcholine (10 microM; n = 4; P > 0.05; t-test), a response mediated by endothelial nitric oxide synthase. 7-NI did not attenuate the BFcrb increase evoked by the nitric oxide donor S-nitroso-N-acetylpenicillamine (1 mM; n = 5; P > 0.05; t-test). Similarly, 7-NI did not affect resting systemic arterial pressure. These observations suggest that selective inhibition of neuronal nitric oxide synthase by 7-NI attenuates the increases in BFcrb evoked by PF stimulation. The findings provide additional support to the hypothesis that the increase in BFcrb evoked by PF stimulation is mediated, in part, by glutamate-induced activation of neuronal nitric oxide synthase.
我们使用神经元型一氧化氮合酶相对选择性抑制剂7-硝基吲唑(7-NI)来检验以下假说:小脑平行纤维(PF)激活所引发的局部小脑血流量(BFcrb)增加是由神经元产生的一氧化氮介导的。在氟烷麻醉的大鼠中,暴露小脑皮质并用林格溶液(37℃;pH 7.3 - 7.4)进行灌流。用电刺激PF(100微安,30赫兹,40秒),同时用激光多普勒血流探头在刺激部位监测BFcrb。在给予溶剂处理的大鼠(n = 5)中,PF刺激使BFcrb增加61±5%(P < 0.05;方差分析和Tukey检验)。7-NI剂量依赖性地减弱了BFcrb的增加(腹腔注射10 - 100毫克/千克;每个剂量n = 5只动物),在100毫克/千克时减弱了55±7%(P < 0.05)。对PF刺激反应的减弱与通过瓜氨酸测定法离体测量的钙依赖性脑一氧化氮合酶活性的抑制程度相关(n = 21)。7-NI也减弱了高碳酸血症(PCO2 = 50 - 60毫米汞柱)引发的脑血管舒张,但不影响乙酰胆碱(10微摩尔;n = 4;P > 0.05;t检验)诱发的血管舒张,乙酰胆碱诱发的反应是由内皮型一氧化氮合酶介导的。7-NI没有减弱一氧化氮供体S-亚硝基-N-乙酰青霉胺(1毫摩尔;n = 5;P > 0.05;t检验)诱发的BFcrb增加。同样,7-NI不影响静息状态下的体循环动脉血压。这些观察结果表明,7-NI对神经元型一氧化氮合酶的选择性抑制减弱了PF刺激所引发的BFcrb增加。这些发现为以下假说提供了额外支持:PF刺激所引发的BFcrb增加部分是由谷氨酸诱导的神经元型一氧化氮合酶激活介导的。
