Talman W T, Dragon D N
Department of Neurology, University of Iowa College of Medicine, Iowa City 52242, USA.
Brain Res. 1995 Feb 20;672(1-2):48-54. doi: 10.1016/0006-8993(94)01381-q.
In anesthetized intact rats, cerebral blood flow is autoregulated until mean arterial blood pressure (MAP) exceeds 150 mmHg. At higher pressures cerebral blood flow breaks through autoregulation and rapidly increases. However, interruption of the arterial baroreceptor reflex eliminates breakthrough of autoregulation. Thus, breakthrough may reflect active rather than passive vasodilatation. We, therefore, sought to determine if breakthrough depends upon synthesis of the vasodilator nitric oxide. Thirty-eight anesthetized adult male Sprague-Dawley rats were studied. In all, MAP was raised by slow i.v. infusion of phenylephrine. In rats pretreated with the nitric oxide synthase inhibitor L-nitroarginine (L-NA; 22 mg/kg i.v.) or with a combination of L-NA plus D-arginine (D-Arg; 240 mg/kg i.v.), breakthrough did not occur even when MAP exceeded 185 mmHg (L-NA) and 165 mmHg (D-Arg). In contrast, breakthrough occurred in rats treated with L-NA plus L-arginine (L-Arg; 240 mg/kg i.v.) and in rats whose basal vascular tone had been increased by pretreatment with arginine vasopressin prior to infusion of phenylephrine. Removal of sympathetic innervation to cerebral vessels attenuated, but did not eliminate, effects of L-NA on breakthrough. Thus, vasodilatation seen with breakthrough of autoregulation depends upon release of nitric oxide or a nitric oxide donor.
在麻醉的完整大鼠中,脑血流量会自动调节,直到平均动脉血压(MAP)超过150 mmHg。在更高的血压下,脑血流量会突破自动调节并迅速增加。然而,动脉压力感受器反射的中断会消除自动调节的突破。因此,突破可能反映的是主动的而非被动的血管舒张。因此,我们试图确定突破是否依赖于血管舒张剂一氧化氮的合成。研究了38只麻醉的成年雄性Sprague-Dawley大鼠。总体而言,通过静脉缓慢输注去氧肾上腺素来升高MAP。在用一氧化氮合酶抑制剂L-硝基精氨酸(L-NA;22 mg/kg静脉注射)或L-NA加D-精氨酸(D-Arg;240 mg/kg静脉注射)预处理的大鼠中,即使MAP超过185 mmHg(L-NA组)和165 mmHg(D-Arg组),也不会出现突破。相比之下,在用L-NA加L-精氨酸(L-Arg;240 mg/kg静脉注射)处理的大鼠以及在输注去氧肾上腺素之前先用精氨酸加压素预处理使基础血管张力增加的大鼠中出现了突破。去除脑血管的交感神经支配会减弱但不会消除L-NA对突破的影响。因此,自动调节突破时出现的血管舒张依赖于一氧化氮或一氧化氮供体的释放。
