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蛋白质包覆的原始和羧基化单壁碳纳米管分散体的近红外介导加热研究

STUDY OF THE NEAR INFRARED-MEDIATED HEATING OF DISPERSIONS OF PROTEIN-COATED PRISTINE AND CARBOXYLATED SINGLE-WALLED CARBON NANOTUBES.

作者信息

Sheardy Alex T, Taylor Jeremy J, Chilek Jennifer L, Li Synyoung, Wang Ruhung, Draper Rockford K, Pantano Paul

机构信息

Department of Chemistry, The University of Texas at Dallas, Richardson, TX 75080-3021, USA.

出版信息

Int J Nanosci. 2012 Oct 1;11(5). doi: 10.1142/S0219581X12500342.

Abstract

Previously, we demonstrated the selective NIR-mediated ablation of tumor cells using pristine single-walled carbon nanotubes (SWNTs) with adsorbed tumor-targeting ligands and carboxylated SWNTs with covalently-attached ligands. The covalent approach is advantageous in ensuring that protein ligands remain associated with the NIR-absorbing SWNTs in biological matrices and the noncovalent approach has the advantage of enabling SWNT functionalization without perturbation of the SWNT lattice and photothermal properties. Herein, we compare the ability of moderately-carboxylated (~4 at.% carboxylic acid groups) and pristine SWNT materials to absorb 808 nm radiation and convert it to heat. Under conditions of a constant 808 nm laser power density, the approach involved measuring the temperature of aqueous dispersions of protein-coated SWNTs as a function of the irradiation time. Nearly identical temperature profiles were observed for dispersions of moderately-carboxylated and pristine SWNTs possessing matched 808 nm optical densities and equivalent concentrations of carbonaceous species (i.e., SWNTs and amorphous carbon impurities). The results indicate that the amount of carbonaceous species in purified dispersions of protein-coated SWNTs is more important for converting absorbed 808 nm radiation into heat than whether or not the SWNTs were moderately carboxylated, and that moderately-carboxylated SWNTs could be the SWNT-material of choice for the targeted photothermal ablation of tumor cells.

摘要

此前,我们展示了使用吸附有肿瘤靶向配体的原始单壁碳纳米管(SWNTs)以及共价连接有配体的羧基化SWNTs,通过近红外(NIR)介导对肿瘤细胞进行选择性消融。共价方法的优势在于能确保蛋白质配体在生物基质中与吸收近红外光的SWNTs保持结合,而非共价方法的优势则是能在不干扰SWNT晶格和光热性质的情况下实现SWNT功能化。在此,我们比较了适度羧基化(约4原子%羧酸基团)和原始SWNT材料吸收808 nm辐射并将其转化为热量的能力。在808 nm激光功率密度恒定的条件下,该方法包括测量蛋白质包覆的SWNTs水分散体的温度随照射时间的变化。对于具有匹配的808 nm光密度和等量含碳物质(即SWNTs和无定形碳杂质)浓度的适度羧基化和原始SWNTs分散体,观察到了几乎相同的温度曲线。结果表明,在将吸收的808 nm辐射转化为热量方面,蛋白质包覆的SWNTs纯化分散体中的含碳物质量比SWNTs是否适度羧基化更为重要,并且适度羧基化的SWNTs可能是肿瘤细胞靶向光热消融的首选SWNT材料。

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