利用体内的氧化微环境作为药物传递系统的触发因素。

Exploiting oxidative microenvironments in the body as triggers for drug delivery systems.

机构信息

1 Skaggs School of Pharmacy and Pharmaceutical Sciences, Laboratory of Bioresponsive Materials, University of California , San Diego, San Diego, California.

出版信息

Antioxid Redox Signal. 2014 Aug 10;21(5):730-54. doi: 10.1089/ars.2013.5754. Epub 2014 Apr 15.

DOI:10.1089/ars.2013.5754

PMID:24328819

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4098119/

Abstract

SIGNIFICANCE

Reactive oxygen species and reactive nitrogen species (ROS/RNS) play an important role in cell signaling pathways. However, the increased production of these species may disrupt cellular homeostasis, giving rise to pathological conditions. Biomaterials that are responsive to ROS/RNS can be strategically used to specifically release therapeutics and diagnostic agents to regions undergoing oxidative stress.

RECENT ADVANCES

Many nanocarriers intended to exploit redox micro-environments as triggers for drug release, summarized and compared in this review, have recently been developed. We describe these carriers' chemical structures, strategies for payload protection and oxidation-selective release, and ROS/RNS sensitivity as tested in initial studies.

CRITICAL ISSUES

ROS/RNS are unstable, so reliable measures of their concentrations in various conditions are scarce. Combined with the dearth of materials shown to respond to physiologically relevant levels of ROS/RNS, evaluations of their true sensitivity are difficult.

FUTURE DIRECTIONS

Oxidation-responsive nanocarriers developed thus far show tremendous potential for applicability in vivo; however, the sensitivity of these chemistries needs to be fine tuned to enable responses to physiological levels of ROS and RNS.

摘要

意义

活性氧 (ROS) 和活性氮 (RNS) 在细胞信号通路中发挥着重要作用。然而，这些物质的过量产生可能会破坏细胞的内稳态，导致病理状况的发生。对 ROS/RNS 有响应的生物材料可以被策略性地用于将治疗剂和诊断剂特异性地释放到发生氧化应激的区域。

关键问题

ROS/RNS 不稳定，因此在各种条件下可靠测量其浓度的方法很少。再加上缺乏能够响应生理相关水平 ROS/RNS 的材料，评估其真正的敏感性变得很困难。

未来方向

迄今为止开发的氧化响应性纳米载体在体内应用方面显示出巨大的潜力；然而，这些化学物质的敏感性需要进行微调，以实现对生理水平 ROS 和 RNS 的响应。

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