多粘菌素 B 对鼻腔细菌的抑制作用:硅基因挖掘和体外分析

Jayendra Chunduru, Nicholas LaRoe, Jeremy Garza, Abdul Hamood, P. Paré
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引用次数: 0

摘要

耐多药细菌对公共卫生构成重大挑战;此类病原体对传统抗生素的敏感性降低,限制了现有的治疗方案。阳离子非核糖体肽(CNRPs),如brevicidine 和多粘菌素,已成为阻断革兰氏阴性细菌的有希望的候选药物。为了研究细菌生物合成 CNRP(特别是多粘菌素)的能力,我们对超过 11,000 个细菌基因组进行了硅学挖掘。根据多个多粘菌素基因簇,确定多粘毛芽孢杆菌具有强大的生物合成能力。通过 HPLC 纯化和 MALDI TOF/TOF 分析对代谢物进行表征,确认了多粘杆菌的生物合成能力。在选定的培养基中生长时,代谢物产量为 4 毫克/升,比活性提高了 20 倍。多粘菌素 B(PMB)在选定的医院病原体(包括铜绿假单胞菌、肺炎克雷伯氏菌和鲍迈不动杆菌)中进行了检测,其最低抑制浓度分别为 4、1 和 1 µg/mL。
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Nosocomial Bacteria Inhibition with Polymyxin B: In Silico Gene Mining and In Vitro Analysis
Multidrug-resistant bacteria present a significant public health challenge; such pathogens exhibit reduced susceptibility to conventional antibiotics, limiting current treatment options. Cationic non-ribosomal peptides (CNRPs) such as brevicidine and polymyxins have emerged as promising candidates to block Gram-negative bacteria. To investigate the capability of bacteria to biosynthesize CNRPs, and specifically polymyxins, over 11,000 bacterial genomes were mined in silico. Paenibacillus polymyxa was identified as having a robust biosynthetic capacity, based on multiple polymyxin gene clusters. P. polymyxa biosynthetic competence was confirmed by metabolite characterization via HPLC purification and MALDI TOF/TOF analysis. When grown in a selected medium, the metabolite yield was 4 mg/L with a 20-fold specific activity increase. Polymyxin B (PMB) was assayed with select nosocomial pathogens, including Pseudomonas aeruginosa, Klebsiella pneumonia, and Acinetobacter baumaii, which exhibited minimum inhibitory concentrations of 4, 1, and 1 µg/mL, respectively.
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