生理条件下的无试剂、序列依赖性原位多肽自环化策略

Nibedita Ghosh , Lal Mohan Kundu
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引用次数: 0

摘要

环肽是一类重要的生物活性分子,可用作药物和生物分子探针。在生理环境下进行肽环化,无需添加化学品或试剂,将是一种非常有用的原位应用技术。本文建立了一种简单、高效、绿色的生理条件下侧链与侧链原位肽环化程序。该方法还能通过肽自环化进一步释放生物活性小分子。生物活性分子以及其他有机离去基团(以伯醇或仲醇为官能团)被连接到短肽 RXE 序列(X = Pro/Ala/Gly)上。这些肽的设计目的是在生理条件下发生环化,并以可控的方式释放共价连接的化疗药物和核碱基。我们利用优化的生理参数进行了详细的体外研究,以了解自环化的动力学和机制。高效液相色谱法和 ESI-质谱法对其作用机制进行了研究。CD 光谱法监测了肽环化引起的构象变化。肽的自环化导致键的断裂,这一概念可能是一种潜在的生物活性小分子(如化疗药物)输送方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

A reagent-free, sequence-dependent in situ peptide self-cyclization strategy under physiological condition

A reagent-free, sequence-dependent in situ peptide self-cyclization strategy under physiological condition
Cyclic peptides are an important class of bioactive molecules used as drugs as well as biomolecular probes. Peptide cyclization under the physiological environment, without added chemicals or reagents, would be a highly useful technique for in situ applications. A simple, highly efficient, and green procedure for side-chain to side-chain in situ peptide cyclization is established here at the physiological condition. The methodology further allows the release of small biologically active molecules through peptide self-cyclization. Bioactive molecules, as well as other organic leaving groups (having primary or secondary alcohol as a functional group), were conjugated to a short peptide RXE sequence (X = Pro/Ala/Gly). The peptides were designed to undergo cyclization under physiological conditions and release the covalently attached chemotherapeutic drug and nucleobases, in a controlled manner. In vitro studies were performed in detail, with optimized physiological parameters, to understand the kinetics as well as the mechanism of self-cyclization. The mechanism of action was investigated by HPLC and ESI-Mass spectrometry. The conformational change, due to cyclization of the peptides, was monitored by CD spectroscopy. The present concept of peptide self-cyclization leading to a bond cleavage could be a potential method of delivery of small, bioactive molecules such as chemotherapeutic drugs.
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CiteScore
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