体内可控自组装肽-菁染料缀合物作为精细可调的治疗诊断一体化试剂。

Controllable Self-Assembly of Peptide-Cyanine Conjugates In Vivo as Fine-Tunable Theranostics.

机构信息

CAS Center for Excellence in Nanoscience, CAS Key Laboratory for Biomedical Effects of Nanomaterials and Nanosafety, National Center for Nanoscience and Technology (NCNST), No. 11 Beiyitiao, Zhongguancun, Haidian District, Beijing, 100190, China.

School of Nanoscience and Technology, University of Chinese Academy of Sciences (UCAS), Beijing, 100049, China.

出版信息

Angew Chem Int Ed Engl. 2021 Mar 29;60(14):7809-7819. doi: 10.1002/anie.202015126. Epub 2021 Mar 1.

DOI:10.1002/anie.202015126

PMID:33433945

Abstract

The fabrication of functional assemblies with defined structures through controllable molecular packing under physiological conditions is challenging. Here, modularly designed peptide-cyanine conjugates that intracellularly self-assembly into 1D columnar superstructures with controlled cyanine aggregation were designed, and they exhibit distinct imaging or photothermal properties. The peptide backbone is cleaved by caspase-3/7 after entering the cells. Then the self-assembled residue, with a double cyanine substitution (Pr-2Cy), forms a P helical column in which H-aggregated cyanine dyes show 3.4-fold photothermal conversion efficiency compared to free ones. The self-assembled residue with a single cyanine substitution (Pr-1Cy) forms a loose column, in which cyanine dyes with undefined structure have a fluorescence quantum yield of up to 9.5 % (emission at 819 nm in H O). This work provides a simple way to modify in vivo self-assembled peptides with functional molecules for achieving desired bio-applications.

摘要

在生理条件下通过可控的分子堆积来构建具有特定结构的功能组装体具有挑战性。在这里，设计了具有模块化设计的肽-菁染料缀合物，它们在细胞内自组装成具有受控菁聚集的一维柱状超结构，并表现出独特的成像或光热特性。肽骨架在进入细胞后被 caspase-3/7 切割。然后，自组装的残留部分，具有双菁取代（Pr-2Cy），形成 P 螺旋柱，其中 H 聚集的菁染料与游离染料相比，光热转换效率提高了 3.4 倍。具有单菁取代（Pr-1Cy）的自组装残留部分形成松散的柱，其中结构未定义的菁染料的荧光量子产率高达 9.5%（在 H2O 中发射波长为 819nm）。这项工作为用功能分子修饰体内自组装肽以实现预期的生物应用提供了一种简单的方法。

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体内可控自组装肽-菁染料缀合物作为精细可调的治疗诊断一体化试剂。

Controllable Self-Assembly of Peptide-Cyanine Conjugates In Vivo as Fine-Tunable Theranostics.

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