铁原卟啉IX和氯喹对小鼠红细胞的溶血作用。化疗意义。
Hemolysis of mouse erythrocytes by ferriprotoporphyrin IX and chloroquine. Chemotherapeutic implications.
作者信息
Chou A C, Fitch C D
出版信息
J Clin Invest. 1980 Oct;66(4):856-8. doi: 10.1172/JCI109925.
Abstract
Incubation of a 0.5% suspension of washed normal mouse erythrocytes with ferriprotoporphyrin IX (FP) for 2.5 h at 37 degrees C and pH 7.4 results in sufficient membrane damage to produce hemolysis. A sigmoidal dose-response curve is followed with 50% hemolysis being produced by 4 microM FP. Complete hemolysis is produced by 6 microM FP. The hemolytic process has at least two phases: a lag phase of approximately 45 min, during which little hemolysis occurs, and a phase characterized by rapid hemolysis. Chloroquine, which binds tightly to FP, enhances the effect of FP by eliminating the lag phase. Under the conditions of these experiments, maximum enhancement is observed with chloroquine concentrations in the range of 5-25 microM. Since FP is produced when malaria parasites digest hemoglobin, it may mediate a chemotherapeutic effect of chloroquine by forming a complex with the drug that could enhance the toxicity of FP for biological membranes, including those of the parasite.
摘要
将洗涤过的正常小鼠红细胞的0.5%悬浮液与铁原卟啉IX(FP)在37℃和pH 7.4条件下孵育2.5小时,会导致足够的膜损伤从而产生溶血。呈现出S形剂量反应曲线,4 microM FP可产生50%的溶血。6 microM FP可产生完全溶血。溶血过程至少有两个阶段:一个约45分钟的延迟期,在此期间几乎不发生溶血,以及一个以快速溶血为特征的阶段。与FP紧密结合的氯喹通过消除延迟期增强了FP的作用。在这些实验条件下,氯喹浓度在5 - 25 microM范围内时观察到最大增强效果。由于疟原虫消化血红蛋白时会产生FP,它可能通过与药物形成复合物来介导氯喹的化疗作用,该复合物可增强FP对生物膜(包括寄生虫的膜)的毒性。
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