由过氧亚硝酸盐生成一氧化氮供体。
The formation of nitric oxide donors from peroxynitrite.
作者信息
Moro M A, Darley-Usmar V M, Lizasoain I, Su Y, Knowles R G, Radomski M W, Moncada S
机构信息
Wellcome Research Laboratories, Beckenham, Kent.
出版信息
Br J Pharmacol. 1995 Oct;116(3):1999-2004. doi: 10.1111/j.1476-5381.1995.tb16404.x.
Abstract
- Administration of peroxynitrite (ONOO-, 30-300 microM) caused relaxation of rabbit aortic strips superfused in series in a cascade. The compound responsible for this effect had a half-life greater than 20 s and could not therefore be either nitric oxide (NO) or ONOO- which have half-lives in the order of 1-2 s under these conditions. However the relaxation was inhibited by oxyhaemoglobin, suggesting the compound could be converted to NO in the vascular tissues or in the superfusate. 2. The products of the reactions between ONOO- and Krebs buffer containing 11 mM glucose, but not glucose-free Krebs buffer, caused relaxation of the bioassay tissues. These data suggest that stable NO donor(s) were formed from the reaction of ONOO- with glucose. We therefore prepared these NO donor(s) by the reaction of glucose solutions with ONOO- in order to characterize their ability to release NO. 3. These reaction product(s) caused relaxation in the cascade and inhibition of platelet aggregation. Both effects were dependent on the concentration of D-glucose, were equally effective if L-glucose was used as a reactant and were reversed by oxyhaemoglobin. 3. The products of the reaction between ONOO- and glucose or other biological molecules containing an alcohol functional group, such as fructose, glycerol, or glyceraldehyde, released NO in the presence of Cu2+and L-cysteine. 5. These results indicate that ONOO- reacts with sugars or other compounds containing an alcohol functional group(s) to form NO donors with the characteristics of organic nitrate/nitrites. This may represent a further detoxification pathway for ONOO- in vivo.
摘要
- 过氧亚硝酸盐(ONOO⁻,30 - 300微摩尔)的给药导致级联串联灌注的兔主动脉条舒张。造成这种效应的化合物半衰期大于20秒,因此不可能是一氧化氮(NO)或ONOO⁻,在这些条件下它们的半衰期约为1 - 2秒。然而,这种舒张被氧合血红蛋白抑制,表明该化合物可在血管组织或灌注液中转化为NO。2. ONOO⁻与含11 mM葡萄糖的 Krebs缓冲液而非无葡萄糖的Krebs缓冲液反应的产物,导致生物测定组织舒张。这些数据表明,稳定的NO供体是由ONOO⁻与葡萄糖反应形成的。因此,我们通过葡萄糖溶液与ONOO⁻反应制备了这些NO供体,以表征它们释放NO的能力。3. 这些反应产物导致级联舒张并抑制血小板聚集。这两种效应均取决于D - 葡萄糖的浓度,如果使用L - 葡萄糖作为反应物同样有效,并且被氧合血红蛋白逆转。3. ONOO⁻与葡萄糖或其他含有醇官能团的生物分子(如果糖、甘油或甘油醛)反应的产物,在Cu²⁺和L - 半胱氨酸存在下释放NO。5. 这些结果表明,ONOO⁻与糖或其他含有醇官能团的化合物反应形成具有有机硝酸盐/亚硝酸盐特征的NO供体。这可能代表了体内ONOO⁻的另一种解毒途径。
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