Radiation-activated prodrugs as hypoxia-selective cytotoxins: model studies with nitroarylmethyl quaternary salts.

Anti-cancer drug design Pub Date : 1998-09-01
W R Wilson, M Tercel, R F Anderson, W A Denny
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Abstract

Bioreductive drugs are designed to be activated by enzymatic reduction in hypoxic regions of tumours, but activation of these drugs is not always fully suppressed by oxygen in normal tissues. A further limitation is that bioreductive drug activation depends on suitable reductases being expressed in the hypoxic zone. This essay proposes an alternative approach in which prodrugs are reduced, and thereby activated, in hypoxic regions by ionizing radiation rather than by enzymes. This strategy is theoretically attractive, but design requirements for such radiation-activated cytotoxins are challenging. In particular, the reducing capacity of radiation at clinically relevant doses is small, which necessitates the development of prodrugs capable of releasing very potent cytotoxins efficiently in hypoxic tissue. It is shown that nitroarylmethyl quaternary (NMQ) salts possess many of the features required of a radiation-activated prodrug. In some heterocyclic NMQ compounds the cytotoxicity of the latent cytotoxic amine effector is suppressed by > 100-fold in the prodrug form, and the effector is released rapidly by fragmentation following reduction by a single electron. Appreciable cytotoxic activation of NMQ prodrugs can be achieved by irradiation at clinically relevant doses in anoxic plasma. Some of the further drug design challenges required to develop a clinical agent based on this approach are outlined.

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辐射激活前药作为低氧选择性细胞毒素:硝基甲基季铵盐的模型研究。
生物还原药物被设计为通过肿瘤缺氧区域的酶还原激活,但这些药物的激活并不总是被正常组织中的氧气完全抑制。进一步的限制是,生物还原性药物激活取决于在缺氧区表达合适的还原酶。本文提出了一种替代方法,其中前药通过电离辐射而不是酶在缺氧区域被还原并因此被激活。这种策略在理论上是有吸引力的,但这种辐射激活的细胞毒素的设计要求是具有挑战性的。特别是,在临床相关剂量下,辐射的减少能力很小,这就需要开发能够在缺氧组织中有效释放非常有效的细胞毒素的前药。研究表明,硝基甲基季铵盐具有辐射激活前药所需的许多特征。在一些杂环NMQ化合物中,潜在细胞毒胺效应物的细胞毒性在前药形式下被抑制了100倍以上,并且效应物在单电子还原后通过碎片迅速释放。在缺氧血浆中以临床相关剂量照射NMQ前药可获得明显的细胞毒性激活。本文概述了基于这种方法开发临床药物所需的一些进一步的药物设计挑战。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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