纳米医药中蛋白冠的化学和生物物理特征。

Chemical and Biophysical Signatures of the Protein Corona in Nanomedicine.

机构信息

CAS Key Laboratory for Biomedical Effects of Nanomaterials and Nanosafety and CAS Center for Excellence in Nanoscience, National Center for Nanoscience and Technology of China, Beijing 100190, China.

University of Chinese Academy of Sciences, Beijing 100049, China.

出版信息

J Am Chem Soc. 2022 Jun 1;144(21):9184-9205. doi: 10.1021/jacs.2c02277. Epub 2022 May 10.

DOI:10.1021/jacs.2c02277

PMID:35536591

Abstract

An inconvenient hurdle in the practice of nanomedicine is the protein corona, a spontaneous collection of biomolecular species by nanoparticles in living systems. The protein corona is dynamic in composition and may entail improved water suspendability and compromised delivery and targeting to the nanoparticles. How much of this nonspecific protein ensemble is determined by the chemistry of the nanoparticle core and its surface functionalization, and how much of this entity is dictated by the biological environments that vary spatiotemporally ? How do we "live with" and exploit the protein corona without significantly sacrificing the efficacy of nanomedicines in diagnosing and curing human diseases? This article discusses the chemical and biophysical signatures of the protein corona and ponders challenges ahead for the field of nanomedicine.

摘要

纳米医学实践中的一个不便的障碍是蛋白质冠，即在生物体系中纳米粒子自发收集的生物分子种类的集合。蛋白质冠在组成上是动态的，可能需要提高水悬浮性，并牺牲纳米粒子的输送和靶向性。这种非特异性蛋白质的组合有多少取决于纳米粒子核心的化学性质及其表面功能化，以及这种实体有多少是由时空变化的生物环境决定的？我们如何在不显著降低纳米药物诊断和治疗人类疾病的功效的情况下“接受”并利用蛋白质冠？本文讨论了蛋白质冠的化学和生物物理特征，并思考了纳米医学领域面临的挑战。

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纳米医药中蛋白冠的化学和生物物理特征。

Chemical and Biophysical Signatures of the Protein Corona in Nanomedicine.

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