[REDUCING RESISTANCE TO ACID HEMOLYSIS BY IRON-CONTAINED DRUG INCREASES THE LEVEL OF HEMOGLOBIN IN THE ERYTHROCYTES OF AGING ANIMALS.]

S I Uretii, A V Kotsuruba, B S Kopyak
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Abstract

In experiments in vivo we studied the effect of chronic iron-contained drug (Urfuhem) supplemention on the level of hemoglobin (Hb) in the blood of aging rats. To establish the biochemical mechanisms of drug action it were determined the parameters of oxidative/nitrosative stress and the hydrogei sulfide level in plasma and erythrocytes, the level of non-heme iron in plasma and erythrocytes sensitivity to acid hemolysis. It was found that in aging rats the drug significantly increases the Hb content of red blood cells and reduces its resistance to acid hemolysis. After the drug supplemention the rate of superoxide anion-radical (*0(2)(-)) generation in erythrocytes and stable hydrogen peroxide (H(2)0(2)) content both in plasma and erythrocytes, were down-regulated. The drug did not reduce the high levels of generation of the hydroxyl radical (*OH) and high levels of excess NO de novo synthesis by iNOS in erythrocytes but reduced the pools of nitrate anion(NO(3)(-))a its reutilization for NO synthesis. After thei drug supplemention the rate of constitutine NO synthesis by cNOS in aging rats plasma was up-regulated perhaps by cNOS coupling. The results indicate that the reason for increasing the permeability of the proton (H*) in red blood cells that causes the acid hemolysis in aging fats after the drug supplemention can be change in the balance of levels of oxidative and nitrosative stress in red blood cells in favor of the latter, and that toxic, OH generation is not at the expense of the classical Fenton reaction in the presence of iron ions (Fe(2+)); but due to the formation and decomposition of peroxynitrie (ON0O(-)).

[通过含铁药物降低对酸性溶血的抵抗力,增加衰老动物红细胞中的血红蛋白水平。]
在体内实验中,我们研究了慢性含铁药物乌富恒对衰老大鼠血液中血红蛋白(Hb)水平的影响。为了建立药物作用的生化机制,测定了血浆和红细胞氧化/亚硝化应激、硫化氢水平、血浆非血红素铁水平和红细胞对酸性溶血的敏感性。研究发现,在衰老大鼠中,该药显著增加红细胞Hb含量,降低其对酸性溶血的抵抗力。补充药物后,红细胞中超氧阴离子自由基(*0(2)(-))的生成速率以及血浆和红细胞中稳定过氧化氢(H(2)0(2))的含量均下调。该药没有降低红细胞中羟基自由基(*OH)的高水平生成和iNOS的高水平过量NO从头合成,但减少了硝酸盐阴离子(NO(3)(-))池,其再利用为NO合成。补药后,衰老大鼠血浆中一氧化氮合成速率可能与一氧化氮偶联作用有关。结果表明,补充药物后,红细胞中质子(H*)的通透性增加,导致老化脂肪中酸性溶血的原因可能是红细胞中氧化应激和亚硝应激水平的平衡发生了有利于后者的变化,并且在铁离子(Fe(2+))存在下,毒性OH的产生并不是以牺牲经典芬顿反应为代价的;而是由于过氧氮(ON0O(-))的形成和分解。
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