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作为广谱抗菌剂的氧杂双环辛烷连接的新型细菌拓扑异构酶抑制剂。

Oxabicyclooctane-linked novel bacterial topoisomerase inhibitors as broad spectrum antibacterial agents.

作者信息

Singh Sheo B, Kaelin David E, Wu Jin, Miesel Lynn, Tan Christopher M, Meinke Peter T, Olsen David, Lagrutta Armando, Bradley Prudence, Lu Jun, Patel Sangita, Rickert Keith W, Smith Robert F, Soisson Stephen, Wei Changqing, Fukuda Hideyuki, Kishii Ryuta, Takei Masaya, Fukuda Yasumichi

机构信息

Merck Research Laboratories , Kenilworth, New Jersey 07033, United States.

Merck Research Laboratories , West Point, Pennsylvania 19486, United States.

出版信息

ACS Med Chem Lett. 2014 Mar 12;5(5):609-14. doi: 10.1021/ml500069w. eCollection 2014 May 8.

DOI:10.1021/ml500069w
PMID:24900889
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4027601/
Abstract

Bacterial resistance is eroding the clinical utility of existing antibiotics necessitating the discovery of new agents. Bacterial type II topoisomerase is a clinically validated, highly effective, and proven drug target. This target is amenable to inhibition by diverse classes of inhibitors with alternative and distinct binding sites to quinolone antibiotics, thus enabling the development of agents that lack cross-resistance to quinolones. Described here are novel bacterial topoisomerase inhibitors (NBTIs), which are a new class of gyrase and topo IV inhibitors and consist of three distinct structural moieties. The substitution of the linker moiety led to discovery of potent broad-spectrum NBTIs with reduced off-target activity (hERG IC50 > 18 μM) and improved physical properties. AM8191 is bactericidal and selectively inhibits DNA synthesis and Staphylococcus aureus gyrase (IC50 = 1.02 μM) and topo IV (IC50 = 10.4 μM). AM8191 showed parenteral and oral efficacy (ED50) at less than 2.5 mg/kg doses in a S. aureus murine infection model. A cocrystal structure of AM8191 bound to S. aureus DNA-gyrase showed binding interactions similar to that reported for GSK299423, displaying a key contact of Asp83 with the basic amine at position-7 of the linker.

摘要

细菌耐药性正在侵蚀现有抗生素的临床效用,因此需要发现新的抗菌药物。细菌II型拓扑异构酶是一个经过临床验证的、高效且已被证实的药物靶点。该靶点易于被多种类型的抑制剂抑制,这些抑制剂与喹诺酮类抗生素具有不同的结合位点,从而能够开发出对喹诺酮类药物无交叉耐药性的药物。本文描述了新型细菌拓扑异构酶抑制剂(NBTIs),它是一类新型的回旋酶和拓扑异构酶IV抑制剂,由三个不同的结构部分组成。连接基团的取代导致发现了具有降低的脱靶活性(人醚-a-去极化钾通道半抑制浓度>18μM)和改善的物理性质的强效广谱NBTIs。AM8191具有杀菌作用,能选择性抑制DNA合成以及金黄色葡萄球菌回旋酶(半抑制浓度=1.02μM)和拓扑异构酶IV(半抑制浓度=10.4μM)。在金黄色葡萄球菌小鼠感染模型中,AM8191在剂量低于2.5mg/kg时显示出肠胃外和口服疗效(半数有效剂量)。AM8191与金黄色葡萄球菌DNA回旋酶的共晶体结构显示出与报道的GSK299423相似的结合相互作用,显示出Asp83与连接基团第7位的碱性胺基的关键接触。

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