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抗疟咪唑并哒嗪类化合物:构效关系研究促使鉴定出具有改善溶解性和人乙醚-去极化激活钾离子通道(hERG)特性的类似物。

Antiplasmodial imidazopyridazines: structure-activity relationship studies lead to the identification of analogues with improved solubility and hERG profiles.

作者信息

Cheuka Peter Mubanga, Lawrence Nina, Taylor Dale, Wittlin Sergio, Chibale Kelly

机构信息

Department of Chemistry , University of Cape Town , Rondebosch 7701 , South Africa . Email:

Drug Discovery and Development Centre (H3D) , Division of Clinical Pharmacology , Department of Medicine , University of Cape Town , Observatory , Cape Town 7925 , South Africa.

出版信息

Medchemcomm. 2018 Sep 6;9(10):1733-1745. doi: 10.1039/c8md00382c. eCollection 2018 Oct 1.

DOI:10.1039/c8md00382c
PMID:30429978
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6194489/
Abstract

3,6-Diarylated imidazopyridazines have recently been shown to possess good antiplasmodial and antimalarial activity. However, frontrunner compounds have been associated with poor solubility and a hERG (human -related gene) inhibition liability raising concerns for potential cardiotoxicity risks. Herein, we report the synthesis and structure-activity relationship studies of new imidazopyridazines aimed at improving aqueous solubility and countering hERG inhibition while maintaining antiplasmodial potency. While we identified new analogues with potent antiplasmodial activity (IC = 0.031 μM against the NF54 drug-sensitive strain, and IC = 0.0246 μM against the K1 multidrug resistant strain), hERG inhibition remained an issue. Excitingly, on the other hand, new analogues with a substantially improved hERG inhibition profile (IC = 7.83-32.3 μM) with sub-micromolar antiplasmodial activity (NF54, IC = 0.151-0.922 μM) were identified. Similarly, the introduced molecular features also resulted in analogues with moderate to high solubility (60-200 μM) while also displaying sub-micromolar antiplasmodial potency (NF54, IC = 0.136-0.99 μM).

摘要

最近研究表明,3,6 - 二芳基咪唑并哒嗪具有良好的抗疟原虫和抗疟疾活性。然而,领先的化合物存在溶解度差以及抑制人ether-à-go-go相关基因(hERG)的问题,这引发了对潜在心脏毒性风险的担忧。在此,我们报告了旨在提高水溶性并对抗hERG抑制,同时保持抗疟原虫效力的新型咪唑并哒嗪的合成及构效关系研究。虽然我们鉴定出了具有强效抗疟原虫活性的新类似物(对NF54药物敏感株的IC₅₀ = 0.031 μM,对K1多药耐药株的IC₅₀ = 0.0246 μM),但hERG抑制仍然是一个问题。另一方面,令人兴奋的是,我们鉴定出了hERG抑制特性得到显著改善(IC₅₀ = 7.83 - 32.3 μM)且具有亚微摩尔抗疟原虫活性(NF54,IC₅₀ = 0.151 - 0.922 μM)的新类似物。同样,引入的分子特征还产生了具有中等到高溶解度(60 - 200 μM),同时也显示出亚微摩尔抗疟原虫效力(NF54,IC₅₀ = 0.136 - 0.99 μM)的类似物。

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