Reductive amination of ω-conotoxin MVIIA: synthesis, determination of modification sites, and self-assembly

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Xiufang Ding, Yue Wang, Sida Zhang, Ruihua Zhang, Dong Chen, Changcai Liu, Jianfu Xu, Long Chen
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Abstract

Peptide drugs have disadvantages such as low stability, short half-life and side effects, which limit their widespread use in clinical practice. Therefore, peptide drugs can be modified to improve these disadvantages. Numerous studies have shown that alkyl-modified peptide drugs can self-assemble to prolong the duration of efficacy and/or reduce side effects. However, the commonly used solid-phase synthesis method for alkyl-modified peptides is time-consuming. To overcome this, a simple reductive amination reaction was employed, which can directly graft the alkyl chain to the peptide sequence and effectively avoid stepwise synthesis from C- to N-terminal with amino acids. In this study, ω-conotoxin MVIIA was used as the peptide drug, while myristic aldehyde was used as the alkylating agent. To obtain the maximum productivity of modified peptides, the molar ratio of peptide MVIIA to myristic aldehyde in the reductive amination reaction was optimized. Furthermore, the peptide modification sites in this reaction were confirmed by secondary mass spectrometry analysis. Besides, alkyl-modified peptide MVIIA was able to form micelles by self-assembly and improved stability in serum, which was related to our previous work where myristoylated peptide MVIIA micelles can improve the drug stability. Finally, this study was intended to provide a methodological basis for modifying the alkyl chain of peptide drugs.

ω-conotoxin MVIIA 的还原胺化:合成、确定修饰位点和自组装。
多肽药物具有稳定性低、半衰期短和副作用大等缺点,限制了其在临床上的广泛应用。因此,多肽药物可以通过修饰来改善这些缺点。大量研究表明,烷基修饰的多肽药物可以自我组装,从而延长药效持续时间和/或减少副作用。然而,常用的烷基修饰多肽固相合成法耗时较长。为了克服这一问题,研究人员采用了一种简单的还原胺化反应,它可以直接将烷基链接枝到肽序列上,有效避免了从 C 端到 N 端与氨基酸的逐步合成。本研究以ω-芋螺毒素 MVIIA 为多肽药物,肉豆蔻醛为烷基化剂。为了获得最大的修饰肽生产率,优化了还原胺化反应中肽 MVIIA 与肉豆蔻醛的摩尔比。此外,还通过二级质谱分析确认了该反应中的肽修饰位点。此外,烷基修饰的多肽 MVIIA 能够通过自组装形成胶束,并提高了在血清中的稳定性,这与我们之前的工作有关,即肉豆蔻酰化的多肽 MVIIA 胶束能够提高药物的稳定性。最后,本研究旨在为多肽药物烷基链的改性提供方法论基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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