Tyrosinase-induced phenoxyl radicals of etoposide (VP-16): interaction with reductants in model systems, K562 leukemic cell and nuclear homogenates.

D Stoyanovsky, J Yalowich, T Gantchev, V Kagan
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引用次数: 13

Abstract

Etoposide (VP-16) is an antitumor drug currently in use for the treatment of a number of human cancers. Mechanisms of VP-16 cytotoxicity involve DNA breakage secondary to inhibition of DNA topoisomerase II and/or direct drug-induced DNA strand cleavage. The VP-16 molecule contains a hindered phenolic group which is crucial for its antitumor activity because its oxidation yields reactive metabolites (quinones) capable of irreversible binding to macromolecular targets. VP-16 phenoxyl radical is an essential intermediate in VP-16 oxidative activation and can be either converted to oxidation products or reduced by intracellular reductants to its initial phenolic form. In the present paper we demonstrate that the tyrosinase-induced VP-16 phenoxyl radical could be reduced by ascorbate, glutathione (GSH) and dihydrolipoic acid. These reductants caused a transient disappearance of a characteristic VP-16 phenoxyl radical ESR signal which reappeared after depletion of the reductant. The reductants completely prevented VP-16 oxidation by tyrosinase during the lag-period as measured by high performance liquid chromatography; after the lag-period VP-16 oxidation proceeded with the rate observed in the absence of reductants. In homogenates of human K562 leukemic cells, the tyrosinase-induced VP-16 phenoxyl radical ESR signal could be observed only after a lag-period whose duration was dependent on cell concentration; VP-16 oxidation proceeded in cell homogenates after this lag-period. In homogenates of isolated nuclei, the VP-16 phenoxyl radical and VP-16 oxidation were also detected after a lag-period, which was significantly shorter than that observed for an equivalent amount of cells. In both cell homogenates and in nuclear homogenates, the duration of the lag period could be increased by exogenously added reductants. The duration of the lag-period for the appearance of the VP-16 phenoxyl radical signal in the ESR spectrum can be used as a convenient measure of cellular reductive capacity. Interaction of the VP-16 phenoxyl radical with intracellular reductants may be critical for its metabolic activation and cytotoxic effects.

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酪氨酸酶诱导的依托泊苷(VP-16)的苯氧基自由基:与模型系统、K562白血病细胞和核匀浆中的还原剂的相互作用。
依托泊苷(VP-16)是一种抗肿瘤药物,目前用于治疗多种人类癌症。VP-16细胞毒性的机制包括抑制DNA拓扑异构酶II和/或直接药物诱导的DNA链切割引起的DNA断裂。VP-16分子含有一个受阻的酚基团,这对其抗肿瘤活性至关重要,因为其氧化产生的活性代谢物(醌)能够与大分子靶标不可逆地结合。VP-16苯氧基是VP-16氧化激活的重要中间体,可以转化为氧化产物或被细胞内还原剂还原为初始的酚类形式。本文证明酪氨酸酶诱导的VP-16苯氧基自由基可被抗坏血酸、谷胱甘肽(GSH)和二氢硫辛酸还原。这些还原剂引起了一个特征的VP-16苯氧基ESR信号的短暂消失,该信号在还原剂耗尽后重新出现。高效液相色谱法测定还原剂完全阻止酪氨酸酶对VP-16的氧化;滞后期后,VP-16的氧化速率与在没有还原剂的情况下观察到的速率相同。在人K562白血病细胞匀浆中,酪氨酸酶诱导的VP-16苯氧基自由基ESR信号需要经过一段滞后期才能观察到,该滞后期的持续时间与细胞浓度有关;在此滞后期后,VP-16在细胞匀浆中继续氧化。在离体细胞核匀浆中,VP-16苯氧基和VP-16氧化也在滞后期后被检测到,这一滞后期明显短于等量细胞的滞后期。在细胞匀浆和细胞核匀浆中,外源添加还原剂可以延长滞后时间。在ESR光谱中出现VP-16苯氧基自由基信号的滞后期的持续时间可以作为细胞还原能力的方便测量。VP-16苯氧基与细胞内还原剂的相互作用可能是其代谢激活和细胞毒性作用的关键。
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