一锅法合成用于靶向癌症成像和光动力治疗的糖聚合物-卟啉共轭物作为光敏剂。

One-pot synthesis of glycopolymer-porphyrin conjugate as photosensitizer for targeted cancer imaging and photodynamic therapy.

作者信息

Lu Jiawei, Zhang Weidong, Yuan Lin, Ma Wenjuan, Li Xiao, Lu Wei, Zhao Yun, Chen Gaojian

机构信息

Center for Soft Condensed Matter Physics and Interdisciplinary Research, Soochow University, Suzhou, 215006, P. R. China; Department of Polymer Science and Engineering, College of Chemistry, Chemical Engineering and Materials Science, Soochow University, Suzhou, 215123, P. R. China.

出版信息

Macromol Biosci. 2014 Mar;14(3):340-6. doi: 10.1002/mabi.201300451. Epub 2013 Nov 27.

DOI:10.1002/mabi.201300451

PMID:24285577

Abstract

One-pot system combining multi-reactions is used to synthesize novel porphyrin-glycopolymer conjugates. Sodium mercury amalgam is used to catalyze the reactions: 1) reduction of RAFT polymerized poly(2-(methacrylamido) glucopyranose) (PMAG), 2) converting protoporphyrin to protoporphyrinogen, 3) thiol-ene coupling reaction of PMAG and protoporphyrinogen. The product is oxidized in the same pot to generate the final porphyrin-PMAG conjugates. The resulting conjugates are characterized by NMR, GPC, UV-Vis, and fluorescence spectroscopy. Glycoparticles (≈ 200 nm) bearing glucose units are formed by dissolving the conjugates in water. Glycoparticles show enhanced binding ability toward Con A, bind K562 cells efficiently and kill these cells under light irradiation in dose and light treatment length dependent manners, illustrating the potential biological applications of the conjugates as photosensitizer for cancer imaging and photodynamic therapy.

摘要

一锅法多反应体系用于合成新型卟啉 - 糖聚合物共轭物。用钠汞齐催化反应：1）可逆加成 - 断裂链转移（RAFT）聚合的聚（2 - （甲基丙烯酰胺基）吡喃葡萄糖）（PMAG）的还原反应；2）原卟啉转化为原卟啉原的反应；3）PMAG与原卟啉原的硫醇 - 烯偶联反应。产物在同一反应釜中氧化生成最终的卟啉 - PMAG共轭物。所得共轭物通过核磁共振（NMR）、凝胶渗透色谱（GPC）、紫外 - 可见光谱（UV - Vis）和荧光光谱进行表征。将共轭物溶解在水中形成带有葡萄糖单元的糖颗粒（≈200 nm）。糖颗粒对伴刀豆球蛋白A（Con A）表现出增强的结合能力，能有效结合K562细胞，并在光照射下以剂量和光处理时长依赖的方式杀死这些细胞，说明共轭物作为癌症成像和光动力治疗光敏剂的潜在生物学应用。

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一锅法合成用于靶向癌症成像和光动力治疗的糖聚合物-卟啉共轭物作为光敏剂。

One-pot synthesis of glycopolymer-porphyrin conjugate as photosensitizer for targeted cancer imaging and photodynamic therapy.

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