摘要/Abstract

二维石墨烯及其衍生物与生物界面的相互作用, 展现出相比于传统维度粒子截然不同的特性, 为功能化医药载体的设计开发提供了潜力策略. 除了优异的电学、热学、光学等性能外, 石墨烯的独特的二维性质, 可以引起细胞更强的应激反应, 包括与细胞膜发生水平摩擦/竖直嵌入/三明治超级结构、选择性被细胞内吞、胞内限域折叠、引发细胞自噬以及隐形活化效应. 基于上述独特界面效应以及理论模拟机制, 对石墨烯进行合理设计, 可在保障安全性的前提下, 满足药物递送、疫苗佐剂、成像传感、光热治疗等需求. 本综述结合课题组近10年在(氧化)石墨烯与生物界面效应、微观作用机理及应用开发方面的系统研究工作, 同时涵盖了国际最新进展, 以期为石墨烯高效、安全体系的设计、构建和应用, 提供理论依据和前瞻性预测.
关键词: 石墨烯, 生物界面效应, 二维载体, 药物递送, 疫苗佐剂
The interaction of two-dimensional graphene and its derivatives with biological interfaces exhibits distinct properties and advantages over traditional dimensional particles, offering potential strategies for the design and development of functionalized pharmaceutical carriers. Apart from the excellent electrical, thermal and optical properties, the two-dimensional structure endows the graphene stronger interactions with cell membranes and then induces obvious cellular response. These responses include the horizontal friction/slant insertion or sandwiched superstructure, selective internalization by phagocytes, folding effect upon the limited intracellular space, autophagy phenomenon and invisible activation. Based on these unique interfacial effects and theoretical simulation mechanisms, rational designs will meet the needs of drug delivery, vaccine carriers, imaging and sensing, and photothermal therapy as well as good biosafety. This review concludes our researches of exploring the biological interface effects, dynamic molecular mechanism, and applications regarding graphene (oxide) in the past 10 years. Meanwhile, it also covers the latest international progress, in order to provide theoretical basis and prospective prediction for the design, construction, and application of efficient and safe graphene systems.
Key words: graphene, biological interface effect, 2D carrier, drug delivery, vaccine adjuvant


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