一种广谱杀菌酰基赖氨酸低聚物的设计与表征

Design and characterization of a broad -spectrum bactericidal acyl-lysyl oligomer.

作者信息

Livne Liran, Kovachi Tchelet, Sarig Hadar, Epand Raquel F, Zaknoon Fadia, Epand Richard M, Mor Amram

机构信息

Department of Biotechnology and Food Engineering, Technion-Israel Institute of Technology, Haifa 32000, Israel.

出版信息

Chem Biol. 2009 Dec 24;16(12):1250-8. doi: 10.1016/j.chembiol.2009.11.012.

DOI:10.1016/j.chembiol.2009.11.012

PMID:20064435

Abstract

Previously characterized chemical mimics of host defense peptides belonging to the oligo-acyl-lysyl (OAK) family have so far failed to demonstrate broad-spectrum antibacterial potency combined with selectivity toward host cells. Here, we investigated OAK sequences and characterized a promising representative, designated C(12)K-3beta(10), with broad-spectrum activity (MIC(90) = 6.2 microM) and low hemotoxicity (LC(50) > 100 microM). Whereas C(12)K-3beta(10) exerted an essentially bactericidal effect, E. coli bacteria were killed faster than S. aureus (minutes versus hours). Mechanistic studies addressing this difference revealed that unlike E. coli, S. aureus bacteria undergo a transient rapid bactericidal stage that over time converts to a bacteriostatic effect. This behavior was dictated by interactions with cell wall-specific components. Preliminary efficacy studies in mice using the thigh infection model demonstrated the OAK's ability to significantly affect bacterial viability upon single-dose systemic treatment (2 mg/kg).

摘要

此前已被表征的属于寡聚酰基赖氨酸（OAK）家族的宿主防御肽化学模拟物，到目前为止未能展现出广谱抗菌效力以及对宿主细胞的选择性。在此，我们研究了OAK序列，并表征了一种有前景的代表性物质，命名为C(12)K - 3β(10)，它具有广谱活性（MIC(90) = 6.2微摩尔）和低血液毒性（LC(50) > 100微摩尔）。虽然C(12)K - 3β(10)发挥的基本上是杀菌作用，但大肠杆菌比金黄色葡萄球菌被杀灭得更快（数分钟对数小时）。针对这种差异的机制研究表明，与大肠杆菌不同，金黄色葡萄球菌会经历一个短暂的快速杀菌阶段，随着时间推移会转变为抑菌作用。这种行为由与细胞壁特异性成分的相互作用所决定。在小鼠大腿感染模型中进行的初步疗效研究表明，单剂量全身治疗（2毫克/千克）时，OAK有能力显著影响细菌活力。

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一种广谱杀菌酰基赖氨酸低聚物的设计与表征

Design and characterization of a broad -spectrum bactericidal acyl-lysyl oligomer.

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