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迈向癌症的靶向“氧化疗法”:吲哚 - 3 - 乙酸的过氧化物酶催化细胞毒性

Toward targeted "oxidation therapy" of cancer: peroxidase-catalysed cytotoxicity of indole-3-acetic acids.

作者信息

Folkes L K, Candeias L P, Wardman P

机构信息

Gray Laboratory Cancer Research Trust, Mount Vernon Hospital, Northwood, Middlesex, UK.

出版信息

Int J Radiat Oncol Biol Phys. 1998 Nov 1;42(4):917-20. doi: 10.1016/s0360-3016(98)00297-1.

DOI:10.1016/s0360-3016(98)00297-1
PMID:9845122
Abstract

PURPOSE

The study aimed to identify suitable prodrugs that could be used to test the hypothesis that peroxidase activity in cells, either endogenous or enhanced by immunological targeting, can activate prodrugs to cytotoxins. We hypothesized that prototype prodrugs based on derivatives of indole-3-acetic acid (IAA), when activated by peroxidase enzymes (e.g., from horseradish, HRP) should produce peroxyl radicals, with deleterious biological consequences.

METHODS AND MATERIALS

V79 hamster cells were incubated with IAA or derivatives +/- HRP and cytotoxicity assessed by a clonogenic assay. To assess the toxicity of stable oxidation products, prodrugs were also oxidized by HRP without cells, and the products then added to cells.

RESULTS

The combination of prodrug and enzyme resulted in cytotoxicity, but neither indole nor enzyme in isolation was toxic under the conditions used. Although lipid peroxidation was stimulated in liposomes by the prodrug/enzyme treatment, it could not be measured in mammalian cells. Adding oxidized prodrugs to cells resulted in cytotoxicity.

CONCLUSIONS

Although the hypothesis that prodrugs of this type could enhance oxidative stress via lipid peroxidation was not established, the results nonetheless demonstrated oxidatively-activated cytotoxicity via indole acetic acid prodrugs, and suggested these as a new type of substrate for antibody-directed enzyme-prodrug therapy (ADEPT). The hypothesized free-radical fragmentation intermediates were demonstrated, but lipid peroxidation associated with peroxyl radical formation was unlikely to be the major route to cytotoxicity.

摘要

目的

本研究旨在确定合适的前体药物,以验证以下假设:细胞内的过氧化物酶活性,无论是内源性的还是通过免疫靶向增强的,都能将前体药物激活为细胞毒素。我们假设基于吲哚 - 3 - 乙酸(IAA)衍生物的原型前体药物,在过氧化物酶(如辣根过氧化物酶,HRP)激活下应产生过氧自由基,并具有有害的生物学后果。

方法和材料

将V79仓鼠细胞与IAA或其衍生物 ± HRP共同孵育,并通过克隆形成试验评估细胞毒性。为评估稳定氧化产物的毒性,前体药物也在无细胞的情况下被HRP氧化,然后将产物添加到细胞中。

结果

前体药物与酶的组合导致细胞毒性,但在所用条件下,单独的吲哚或酶均无毒性。尽管前体药物/酶处理可刺激脂质体中的脂质过氧化,但在哺乳动物细胞中无法检测到。将氧化的前体药物添加到细胞中会导致细胞毒性。

结论

虽然此类前体药物可通过脂质过氧化增强氧化应激这一假设未得到证实,但结果仍证明了通过吲哚乙酸前体药物产生氧化激活的细胞毒性,并表明这些可作为抗体导向酶前体药物疗法(ADEPT)的新型底物。已证实存在假设的自由基断裂中间体,但与过氧自由基形成相关的脂质过氧化不太可能是细胞毒性的主要途径。

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