具有热/pH 调节可逆响应的近红外荧光纳米胶囊用于光学成像。
Near-infrared fluorescent nanocapsules with reversible response to thermal/pH modulation for optical imaging.
机构信息
Department of Biomedical Engineering, Johns Hopkins University, Baltimore, Maryland 21205, United States.
出版信息
Biomacromolecules. 2011 Dec 12;12(12):4367-72. doi: 10.1021/bm201350d. Epub 2011 Nov 10.
Abstract
Polymeric near-infrared (NIR) fluorescent nanocapsules were developed, of which the fluorescence exhibited reversible response to local thermal/pH modulation. Our strategy was to use polymeric micelles made of temperature-sensitive Pluronic F-127 to encapsulate an amphiphilic NIR fluorescent dye-indocyanine green (ICG)-within the core and then cross-link the micelle corona by pH-sensitive poly(ethylenimine) (PEI). The size swelling/shrinking property of the micelles induced by temperature decrease/increase was used as a switch to control the fluorescence yield of the nanocapsules. It was found that the fluorescence yield significantly increased with the increase in temperature. The PEI cross-link made the fluorescence yield also sensitive to local pH change and enhanced intracellular delivery of the nanocapsules as well. Preliminary results suggest the NIR fluorescent probes could be potentially used as a contrast agent sensitive to local environment for translational optical imaging/sensing.
摘要
聚合物近红外(NIR)荧光纳米胶囊被开发出来,其荧光对局部热/ pH 调节表现出可逆响应。我们的策略是使用由温度敏感的 Pluronic F-127 制成的聚合物胶束来包封两亲性近红外荧光染料-吲哚菁绿(ICG)-在核心内,然后通过 pH 敏感的聚(亚乙基亚胺)(PEI)交联胶束冠。胶束的尺寸溶胀/收缩性质由温度降低/升高引起,用作控制纳米胶囊荧光产率的开关。结果发现,荧光产率随温度升高而显著增加。PEI 交联使荧光产率也对局部 pH 变化敏感,并增强了纳米胶囊的细胞内递呈。初步结果表明,NIR 荧光探针可作为对局部环境敏感的用于转化光学成像/传感的造影剂。
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