大环化合物与抗菌肽的络合作用可降低溶血率并提高稳定性。

Complexation of an Antimicrobial Peptide by Large-Sized Macrocycles for Decreasing Hemolysis and Improving Stability.

机构信息

College of Environmental and Chemical Engineering, Shanghai University, Shanghai, 200444, P. R. China.

State Key Laboratory of Toxicology and Medical Countermeasures, Beijing Institute of Pharmacology and Toxicology, Beijing, 100850, P. R. China.

出版信息

Angew Chem Int Ed Engl. 2021 May 10;60(20):11288-11293. doi: 10.1002/anie.202102706. Epub 2021 Apr 9.

DOI:10.1002/anie.202102706

PMID:33709627

Abstract

Traditional macrocyclic hosts have finite cavity sizes, generally 5-10 Å, which are commonly adaptive to recognize small guests rather than biological macromolecules. Here two water-soluble large-sized quaterphen[n]arenes (WQPns, n=3, 4) were designed and synthesized. These two hosts present significantly distinct recognition abilities. Specifically, they could strongly complex an antimicrobial peptide, pexiganan (PXG) with the association constants (K ) of (4.20±0.23)×10 M for PXG/WQP3 and (2.46±0.44)×10 M for PXG/WQP4. Complexation of PXG by WQP3 and WQP4 served to decrease the hemolysis of PXG in rabbit red blood cells in a statistically significant way. Furthermore, host-guest complexation was shown to substantially enhance metabolic stability of PXG in presence of proteinase K, rat plasma and liver or kidney homogenates.

摘要

传统的大环主体具有有限的空腔尺寸，通常为 5-10 Å，通常适用于识别小分子客体而不是生物大分子。在这里，设计并合成了两种水溶性的大尺寸四苯并[n]芳烃（WQPn，n=3，4）。这两个主体表现出明显不同的识别能力。具体来说，它们可以与抗菌肽 pexiganan（PXG）强烈络合，对于 PXG/WQP3 的结合常数（K）为（4.20±0.23）×10 M，对于 PXG/WQP4 的为（2.46±0.44）×10 M。WQP3 和 WQP4 与 PXG 的络合作用在统计学上显著降低了 PXG 在兔红细胞中的溶血作用。此外，主体-客体络合作用显著提高了蛋白酶 K、大鼠血浆以及肝或肾匀浆存在时 PXG 的代谢稳定性。

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大环化合物与抗菌肽的络合作用可降低溶血率并提高稳定性。

Complexation of an Antimicrobial Peptide by Large-Sized Macrocycles for Decreasing Hemolysis and Improving Stability.

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