基于适配体的atp反应传递系统用于癌症的诊断和治疗

Elham Sameiyan, Elnaz Bagheri, Shahrzad Dehghani, M. Ramezani, M. Alibolandi, K. Abnous, S. M. Taghdisi
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引用次数: 0

摘要

近年来,许多刺激触发给药平台被设计用于将药物准确地递送到特定部位并减少其副作用,提高“按需”治疗效果。腺苷-5'-三磷酸(ATP)反应性药物递送方法就是这些系统的例子,这些系统使用ATP分子作为递送治疗剂的触发器。由于细胞内和细胞外ATP浓度之间存在显著差异(分别为1-10 mM和<0.4 mM),因此使用ATP可作为调节药物释放的实用方法。适体具有配体特异性反应、序列短(约20-80个碱基)、易于功能化等特点。因此,它们与atp反应系统的结合导致更精确的药物传递系统和更好的药物释放控制。广泛的纳米颗粒框架,如聚合纳米凝胶、脂质体、金属纳米颗粒、蛋白质或DNA纳米组件,已被用于纳米载体的制造。在这篇综述中,我们描述了几种基于不同载体的atp反应性药物递送系统,并讨论了每种方法的挑战和优势。
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Aptamer-Based Atp-Responsive Delivery Systems for Diagnosis and Treatment of Cancer
In recent years, many stimuli-triggered drug delivery platforms have been designed to deliver drugs accurately to specific sites and reduce their side effects, improving “on-demand” therapeutic efficacy. Adenosine-5'-triphosphate (ATP)-responsive drug delivery methods are examples of these systems that use ATP molecules as a trigger for delivery of therapeutic agents. Since intra- and extra-cellular ATP concentrations are significantly different from each other (1-10 mM and <0.4 mM, respectively), the use of ATP can be a practical method for regulating drug release. Aptamers possess unique properties including, ligand-specific response, short sequence (~ 20-80 bases) and easy functionalization. Thus, their combination with ATP-responsive systems results in more accurate drug delivery systems and greater control of drug release. A wide range of nanoparticle frameworks, such as polymeric nanogels, liposomes, metallic nanoparticles, protein, or DNA nano-assemblies, have been employed in the fabrication of nanocarriers. In this review, we describe several ATP-responsive drug delivery systems based on the various carriers and discuss the challenges and strengths of each method.
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