成人和胎儿高铁血红蛋白与脂质体的相互作用

N. Timchenko, M. Evstigneev, V. A. Rubakina
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摘要

目的:血红蛋白(Hb)溶液已广泛应用于临床,目前正在研究其储存方法和技术。当Hb溶液被储存时,形成不耐氧的高铁血红蛋白(metHb)。Hb溶液中甲基苯丙胺含量的增加对其使用潜力产生不利影响。这是特别感兴趣的新生儿,因为增加甲基苯丙胺含量是观察到健康的新生儿。为了模拟在含甲基苯丙胺的红细胞中发生的过程,我们研究了成人(A)和胎儿(F)甲基苯丙胺与脂质体的相互作用。方法:分别用过量的六氰高铁酸钾(ІІІ)氧化Hb А和F得到甲氧基b А和F。从献血者中分离出A型血红蛋白,从脐血中分离出F型血红蛋白。鸡蛋磷脂酰胆碱和牛心脏磷脂。脂质体形成的磷脂酰胆碱-心磷脂重量比为4:1。蛋白-脂质复合物在20°С形成。通过记录蛋白-脂复合物在Soret波段最大值光密度的变化,研究了甲基苯二甲酸乙酯与脂质体相互作用的动力学。结果:甲氧基甲醚和甲氧基甲醚与脂质体相互作用的动力学表明,甲氧基甲醚比甲氧基甲醚更明显地降低了Soret波段的蛋白质光密度。结论:甲氧基甲醚诱导了模型膜的脂质过氧化,可以认为甲氧基甲醚与甲氧基甲醚脂质体相互作用时,这一过程比甲氧基甲醚脂质体相互作用时更强烈。可能,甲基F对氢过氧化物的抗性不如甲基A。
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Adult and fetal methemoglobin interaction with liposomes
Objective: Hemoglobin (Hb) solutions are used in clinical practice and efforts are underway to study methods and techniques of their storage. As Hb solutions are stored, oxygen-intolerant methemoglobin (metHb) is formed. Increased metHb content in Hb solutions adversely affects the potential for their use. It is of particular interest for neonatology as increased metHb content is observed in healthy neonates. To simulate the processes taking place in metHb-containing red blood cells we researched the adult (A) and fetal (F) metHb interaction with liposomes. Methods: We obtained metHb А and F by oxidation of Hb А and F, respectively, with potassium hexacyanoferrate(ІІІ) excess and subsequent dialysis. Hb A was isolated from donors’ and Hb F from umbilical blood. Egg phosphatidylcholine and cardiolipin from bovine heart were used. Liposomes were formed in the 4:1 phosphatidylcholine-cardiolipin weight ratio. Protein-lipid complexes were formed at 20�С. The kinetics of metHb A and F interaction with liposomes was studied by recording the changes of optical density of protein-lipid complexes in the Soret band maximum. Results: The kinetics of metHb A and F interaction with liposomes showed that a decrease of the protein optical density in the Soret band for metHb F was more apparent than for metHb A. Conclusions: As far as metHb induces lipid peroxidation in model membranes, it is fair to assume that this process is more intensive in case of metHb F-liposomes interaction than in case of metHb A-liposomes interaction. Probably, metHb F is less resistant to hydroperoxides than metHb A.
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