基于噬菌体的环境鸡尾酒疗法与抗生素联合对人体尿液模型中生物膜的影响

Environmental Phage-Based Cocktail and Antibiotic Combination Effects on Biofilm in a Human Urine Model.

作者信息

Grygorcewicz Bartłomiej, Wojciuk Bartosz, Roszak Marta, Łubowska Natalia, Błażejczak Piotr, Jursa-Kulesza Joanna, Rakoczy Rafał, Masiuk Helena, Dołęgowska Barbara

机构信息

Department of Laboratory Medicine, Chair of Microbiology, Immunology, and Laboratory Medicine, Pomeranian Medical University in Szczecin, Szczecin, Poland.

Department of Diagnostic Immunology, Chair of Microbiology, Immunology, and Laboratory Medicine, Pomeranian Medical University in Szczecin, Szczecin, Poland.

出版信息

Microb Drug Resist. 2021 Jan;27(1):25-35. doi: 10.1089/mdr.2020.0083. Epub 2020 Jun 15.

DOI:10.1089/mdr.2020.0083

PMID:32543337

Abstract

The emergence of multidrug-resistant (MDR) bacterial infections poses a catastrophic threat to medicine. The development of phage-based therapy combined with antibiotics might be an advantageous weapon in the arms race between human and MDR bacteria. A cocktail composed of the MDR infecting bacteriophages with high lytic activity was used in combination with antibiotics to destroy a bacterial biofilm in human urine. exhibited varying susceptibility to the host range of bacteriophages used in this study, ranging from 56% to 84%. This study demonstrated that bacteriophages could reduce biofilm biomass in a human urine model, and some of the antibiotics commonly used in the treatment of urinary tract infection (UTI) act synergistically with phage cocktails. Additionally, the combined treatment showed a significantly greater reduction of biofilm biomass and clearance of persister cells.

摘要

多重耐药（MDR）细菌感染的出现对医学构成了灾难性威胁。基于噬菌体的疗法与抗生素联合应用可能是人类与MDR细菌军备竞赛中的一种有利武器。一种由具有高裂解活性的MDR感染噬菌体组成的鸡尾酒制剂与抗生素联合使用，以破坏人尿液中的细菌生物膜。本研究中使用的噬菌体宿主范围对其表现出不同的敏感性，范围从56%到84%。这项研究表明，噬菌体可以在人尿液模型中减少生物膜生物量，并且一些常用于治疗尿路感染（UTI）的抗生素与噬菌体鸡尾酒制剂具有协同作用。此外，联合治疗显示生物膜生物量的减少和持留菌细胞的清除显著增加。

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基于噬菌体的环境鸡尾酒疗法与抗生素联合对人体尿液模型中生物膜的影响

Environmental Phage-Based Cocktail and Antibiotic Combination Effects on Biofilm in a Human Urine Model.

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