Enterococcus faecalis colonizes and forms persistent biofilm microcolonies on undamaged endothelial surfaces in a rabbit endovascular infection model.

Aaron M T Barnes, Kristi L Frank, Jennifer L Dale, Dawn A Manias, Jennifer L Powers, Gary M Dunny
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引用次数: 4

Abstract

Infectious endocarditis (IE) is an uncommon disease with significant morbidity and mortality. The pathogenesis of IE has historically been described as a cascade of host-specific events beginning with endothelial damage and thrombus formation and followed by bacterial colonization of the nascent thrombus. Enterococcus faecalis is a Gram-positive commensal bacterial member of the gastrointestinal tract microbiota in most terrestrial animals and a leading cause of opportunistic biofilm-associated infections, including endocarditis. Here, we provide evidence that E. faecalis can colonize the endocardial surface without pre-existing damage and in the absence of thrombus formation in a rabbit endovascular infection model. Using previously described light and scanning electron microscopy techniques, we show that inoculation of a well-characterized E. faecalis lab strain in the marginal ear vein of New Zealand White rabbits resulted in rapid colonization of the endocardium throughout the heart within 4 days of administration. Unexpectedly, ultrastructural imaging revealed that the microcolonies were firmly attached directly to the endocardium in areas without morphological evidence of gross tissue damage. Further, the attached bacterial aggregates were not associated with significant cellular components of coagulation or host extracellular matrix damage repair (i.e. platelets). These results suggest that the canonical model of mechanical surface damage as a prerequisite for bacterial attachment to host sub-endothelial components is not required. Furthermore, these findings are consistent with a model of initial establishment of stable, endocarditis-associated E. faecalis biofilm microcolonies that may provide a reservoir for the eventual valvular infection characteristic of clinical endocarditis. The similarities between the E. faecalis colonization and biofilm morphologies seen in this rabbit endovascular infection model and our previously published murine gastrointestinal colonization model indicate that biofilm production and common host cell attachment factors are conserved in disparate mammalian hosts under both commensal and pathogenic contexts.

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在兔血管内感染模型中,粪肠球菌在未损伤的内皮表面定植并形成持久的生物膜微菌落。
感染性心内膜炎(IE)是一种发病率和死亡率都很高的罕见疾病。IE的发病机制历来被描述为一系列宿主特异性事件,从内皮损伤和血栓形成开始,然后是新生血栓的细菌定植。粪肠球菌是大多数陆生动物胃肠道微生物群中的一种革兰氏阳性共生细菌,也是机会性生物膜相关感染(包括心内膜炎)的主要原因。在这里,我们提供的证据表明,在兔血管内感染模型中,粪肠球菌可以在心内膜表面定植,而不会造成预先存在的损伤,也不会形成血栓。利用先前描述的光学和扫描电子显微镜技术,我们发现在新西兰白兔耳缘静脉接种一种特征良好的粪肠球菌实验室菌株,在给药后4天内,整个心脏的心内膜迅速定植。出乎意料的是,超微结构成像显示,在没有明显组织损伤的形态学证据的区域,微菌落直接牢固地附着在心内膜上。此外,附着的细菌聚集体与凝血或宿主细胞外基质损伤修复的重要细胞成分(即血小板)无关。这些结果表明,机械表面损伤作为细菌附着宿主内皮亚成分的先决条件的标准模型是不需要的。此外,这些发现与最初建立稳定的、心内膜炎相关的粪肠球菌生物膜微菌落的模型是一致的,这可能为临床心内膜炎的最终瓣膜感染特征提供了一个储存库。在兔血管内感染模型和我们之前发表的小鼠胃肠道定植模型中观察到的粪肠球菌定植和生物膜形态的相似性表明,在共生和致病背景下,生物膜的产生和共同的宿主细胞附着因子在不同的哺乳动物宿主中都是保守的。
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CiteScore
3.30
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0.00%
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审稿时长
15 weeks
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