Flitney Frederick Werner, Megson Ian L
Cell and Molecular Biology, School of Biology, University of St Andrews, St Andrews, Fife KY16 9TS, Scotland.
J Physiol. 2003 Aug 1;550(Pt 3):819-28. doi: 10.1113/jphysiol.2003.041970. Epub 2003 Jun 24.
Photorelaxation of vascular smooth muscle (VSM) was studied using segments of tail artery from normotensive rats (NTR) or spontaneously hypertensive rats (SHR). Isolated vessels with intact endothelium were perfused with Krebs solution containing phenylephrine. Perfusion pressures were recorded while arteries were irradiated with either visible (VIS; lambda=514.5 nm) or long wavelength ultra-violet (UVA; lambda=366 nm) light. VIS light produced a transient vasodilator response: a rapid decrease of pressure that recovered fully during the period (6 min) of illumination. An irradiated artery was refractory to a second period of illumination delivered immediately after the first, but its photosensitivity recovered slowly in the dark, a process called 'repriming'. Photorelaxations generated by UVA light were qualitatively different and consisted of two components: a phasic (or p-) component superimposed on a sustained (or s-) component. The p-component is similar to the VIS light-induced response in that both exhibit refractoriness and repriming depends upon endothelium-derived NO. In contrast, the s-component persists throughout the period of illumination and does not show refractoriness. We conclude that VIS light-induced photorelaxations and the p-component of UVA light-induced responses are mediated by the photochemical release of NO from a finite molecular 'store' that can be reconstituted afterwards in the dark. The s-component of the UVA light-induced response does not depend directly on endothelial NO and may result instead from a stimulatory effect of UVA light on soluble guanylate cyclase. NO-dependent photorelaxation is impaired in vessels from SHR while the s-component is enhanced.
利用正常血压大鼠(NTR)或自发性高血压大鼠(SHR)的尾动脉节段研究了血管平滑肌(VSM)的光舒张作用。将具有完整内皮的离体血管用含去氧肾上腺素的 Krebs 溶液灌注。在用可见光(VIS;波长λ = 514.5 nm)或长波长紫外线(UVA;波长λ = 366 nm)照射动脉时记录灌注压力。VIS 光产生短暂的血管舒张反应:压力迅速下降,并在照射期间(6 分钟)完全恢复。一条照射过的动脉对紧接着第一次照射后立即进行的第二次照射无反应,但在黑暗中其光敏性缓慢恢复,这一过程称为“再激发”。UVA 光产生的光舒张在性质上有所不同,由两个成分组成:一个叠加在持续(或 s-)成分上的相性(或 p-)成分。p-成分与 VIS 光诱导的反应相似,两者都表现出不应性,且再激发依赖于内皮衍生的一氧化氮(NO)。相比之下,s-成分在整个照射期间持续存在,且不表现出不应性。我们得出结论,VIS 光诱导的光舒张和 UVA 光诱导反应的 p-成分是由有限分子“储存库”中 NO 的光化学释放介导的,随后可在黑暗中重新构建。UVA 光诱导反应的 s-成分不直接依赖于内皮 NO,可能是 UVA 光对可溶性鸟苷酸环化酶的刺激作用所致。SHR 血管中依赖 NO 的光舒张受损,而 s-成分增强。