Structure–Activity Relationship Studies Leading to the Discovery of Highly Water-Soluble and Biocompatible Acyclic Cucurbit[n]uril FY-3451 as a Universal Antagonist That Rapidly Reverses Neuromuscular Blocking Agents In Vivo

IF 5.3 2区 材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY
Ke Feng, Yue-Yang Liu, Yang Zong, Zhuo Lei, Yan Wu, Jingyu Yang, Furong Lin, Qiao-Yan Qi, Qian Li, Sheng-Yi Zhuang, Jiangshan Zhang, Jia Tian, Wei Zhou, Da Ma, Dan-Wei Zhang, Zhan-Ting Li, Shang-Bo Yu
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Abstract

The development of a reversal agent that can rapidly reverse clinically used nondepolarizing neuromuscular blocking agents (NMBAs) has long been a challenge. Here, we report the synthesis of a series of highly water-soluble acyclic cucurbit[n]urils (acCBs). Systematic structure–activity relationship studies reveal that introducing two propylidene units on the peripheral benzene rings not only remarkably improves the activity of the corresponding derivative acCB6 (FY 3451) in reversing the neuromuscular block of rocuronium, cisatracurium, vecuronium, and pancuronium, the four clinically used NMBAs, through stable inclusion, but also allows for high water-solubility as well as a maximum tolerated dose (2000 mg/kg on rats). In vivo experiments with rats show that, at the identical dose of 25 mg/kg, for rocuronium, vecuronium, and pancuronium, acCB6 can achieve a recovery time shorter than that of sugammadex for rocuronium and, at the dose of 100 mg/kg, realize comparably rapid reversal for cisatracurium.

Abstract Image

通过结构-活性关系研究发现高水溶性和生物相容性环葫芦[n]脲 FY-3451 是一种通用拮抗剂,可快速逆转体内的神经肌肉阻滞剂
长期以来,开发一种能够快速逆转临床使用的非去极化神经肌肉阻滞剂(NMBA)的逆转剂一直是一项挑战。在此,我们报告了一系列高水溶性无环葫芦[n]脲(acCBs)的合成过程。系统的结构-活性关系研究表明,在外周苯环上引入两个亚丙基单元,不仅能显著提高相应衍生物 acCB6(FY 3451)的活性,通过稳定的包合逆转罗库溴铵、顺阿曲库铵、维库溴铵和潘库溴铵(四种临床常用的 NMBAs)的神经肌肉阻滞,还能实现高水溶性和最大耐受剂量(大鼠为 2000 毫克/千克)。对大鼠进行的体内实验表明,在罗库铵、维库铵和潘库铵的相同剂量(25 毫克/千克)下,acCB6 对罗库铵的恢复时间比苏甘马度短,而在 100 毫克/千克的剂量下,对顺阿曲库铵的逆转速度也相当快。
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来源期刊
CiteScore
8.30
自引率
3.40%
发文量
1601
期刊介绍: ACS Applied Nano Materials is an interdisciplinary journal publishing original research covering all aspects of engineering, chemistry, physics and biology relevant to applications of nanomaterials. The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrate knowledge in the areas of materials, engineering, physics, bioscience, and chemistry into important applications of nanomaterials.
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