Innate and acquired bacteriophage-mediated immunity.

Bacteriophage Pub Date : 2013-07-01 Epub Date: 2013-07-29 DOI:10.4161/bact.25857
Jeremy J Barr, Merry Youle, Forest Rohwer
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引用次数: 66

Abstract

We recently described a novel, non-host-derived, phage-mediated immunity active at mucosal surfaces, the main site of pathogen entry in metazoans. In that work, we showed that phage T4 adheres to mucus glycoproteins via immunoglobulin-like domains displayed on its capsid. This adherence positions the phage in mucus surfaces where they are more likely to encounter and kill bacteria, thereby benefiting both the phage and its metazoan host. We presented this phage-metazoan symbiosis based on an exclusively lytic model of phage infection. Here we extend our bacteriophage adherence to mucus (BAM) model to consider the undoubtedly more complex dynamics in vivo. We hypothesize how mucus-adherent phages, both lytic and temperate, might impact the commensal microbiota as well as protect the metazoan epithelium from bacterial invasion. We suggest that BAM may provide both an innate and an acquired antimicrobial immunity.

Abstract Image

Abstract Image

先天和获得性噬菌体介导免疫。
我们最近描述了一种新的、非宿主来源的、在粘膜表面活跃的噬菌体介导的免疫,这是后生动物病原体进入的主要部位。在这项工作中,我们发现噬菌体T4通过其衣壳上显示的免疫球蛋白样结构域粘附在粘液糖蛋白上。这种粘附使噬菌体处于粘液表面,在那里它们更有可能遇到并杀死细菌,从而使噬菌体及其后生动物宿主都受益。我们提出了这种噬菌体-后生动物共生基于噬菌体感染的完全溶解模型。在这里,我们扩展了我们的噬菌体黏液粘附(BAM)模型,以考虑无疑更复杂的体内动力学。我们假设黏液粘附噬菌体(裂解性和温带)如何影响共生微生物群以及保护后生动物上皮免受细菌侵袭。我们认为BAM可能同时提供先天和获得性抗微生物免疫。
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