Drug targeting: learning from toxin entry and trafficking in mammalian cells.

Robert A Spooner, Peter Watson
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引用次数: 0

Abstract

A significant number of therapeutic targets reside inside cells and intracellular organelles. Therapeutics therefore must be able to gain access to cellular compartments, and be able to interact specifically with a given molecule to exert a desired effect. Many naturally occurring toxins perform such targeting with apparent ease, making them excellent paradigms for the delivery of therapeutics to the cell interior. By studying the mechanisms of cell entry, trafficking and modes of toxicity of these model delivery vectors, researchers can decipher how cells transport both endogenous molecules and exogenously applied therapeutics inside cells. Perhaps more importantly, the exploitation of cell binding and trafficking motifs could allow a therapeutic to target specifically, traffic within and escape from cellular compartments; in addition, toxic domains can be used to disrupt cell function specifically for therapeutic purposes. This review provides an overview of recent developments in the understanding of toxin targeting and trafficking, and discusses how these developments could result in opportunities for the design of more specific and efficient systems for therapeutic targeting.

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药物靶向:从哺乳动物细胞的毒素进入和贩运中学习。
大量的治疗靶点存在于细胞和胞内细胞器内。因此,治疗方法必须能够进入细胞区室,并能够与给定分子特异性地相互作用以发挥预期的效果。许多自然产生的毒素显然很容易就能实现这种靶向,使它们成为将治疗药物输送到细胞内部的绝佳范例。通过研究这些模型传递载体的细胞进入、运输和毒性模式的机制,研究人员可以破译细胞如何在细胞内运输内源性分子和外源性治疗药物。也许更重要的是,利用细胞结合和运输基序可以使治疗特异性靶向,在细胞隔间内运输和逃离;此外,毒性结构域可用于破坏细胞功能,以达到特定的治疗目的。本综述概述了毒素靶向和贩运的最新发展,并讨论了这些发展如何为设计更具体和更有效的治疗靶向系统提供机会。
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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