Function and contribution of two putative Enterococcus faecalis glycosaminoglycan degrading enzymes to bacteremia and catheter-associated urinary tract infection.

IF 2.9 3区 医学 Q3 IMMUNOLOGY Infection and Immunity Pub Date : 2024-07-11 Epub Date: 2024-06-06 DOI:10.1128/iai.00199-24
Alexandra O Johnson, Braden M Shipman, Benjamin C Hunt, Brian S Learman, Aimee L Brauer, Serena P Zhou, Rachael Hageman Blair, Nicole J De Nisco, Chelsie E Armbruster
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Abstract

Enterococcus faecalis is a common cause of healthcare-acquired bloodstream infections and catheter-associated urinary tract infections (CAUTIs) in both adults and children. Treatment of E. faecalis infection is frequently complicated by multi-drug resistance. Based on protein homology, E. faecalis encodes two putative hyaluronidases, EF3023 (HylA) and EF0818 (HylB). In other Gram-positive pathogens, hyaluronidases have been shown to contribute to tissue damage and immune evasion, but the function in E. faecalis has yet to be explored. Here, we show that both hylA and hylB contribute to E. faecalis pathogenesis. In a CAUTI model, ΔhylA exhibited defects in bladder colonization and dissemination to the bloodstream, and ΔhylB exhibited a defect in kidney colonization. Furthermore, a ΔhylAΔhylB double mutant exhibited a severe colonization defect in a model of bacteremia while the single mutants colonized to a similar level as the wild-type strain, suggesting potential functional redundancy within the bloodstream. We next examined enzymatic activity, and demonstrate that HylB is capable of digesting both hyaluronic acid (HA) and chondroitin sulfate in vitro, while HylA exhibits only a very modest activity against heparin. Importantly, HA degradation by HylB provided a modest increase in cell density during the stationary phase and also contributed to dampening of lipopolysaccharide-mediated NF-κB activation. Overall, these data demonstrate that glycosaminoglycan degradation is important for E. faecalis pathogenesis in the urinary tract and during bloodstream infection.

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两种假定的粪肠球菌糖胺聚糖降解酶的功能及其对菌血症和导管相关性尿路感染的影响。
粪肠球菌是导致成人和儿童医源性血流感染和导管相关性尿路感染(CAUTI)的常见原因。粪肠球菌感染的治疗常常因多重耐药性而变得复杂。根据蛋白质同源性,粪肠球菌编码两种假定的透明质酸酶,即 EF3023(HylA)和 EF0818(HylB)。在其他革兰氏阳性病原体中,透明质酸酶已被证明有助于组织损伤和免疫逃避,但在粪肠球菌中的功能还有待探索。在这里,我们发现 hylA 和 hylB 都有助于粪肠球菌的致病。在 CAUTI 模型中,ΔhylA 表现出膀胱定植和向血液传播的缺陷,而 ΔhylB 则表现出肾脏定植的缺陷。此外,ΔhylAΔhylB 双突变体在菌血症模型中表现出严重的定植缺陷,而单突变体的定植水平与野生型菌株相似,这表明在血液中可能存在功能冗余。我们接下来研究了酶活性,结果表明 HylB 能够在体外消化透明质酸(HA)和硫酸软骨素,而 HylA 对肝素只表现出非常微弱的活性。重要的是,HylB 对 HA 的降解可适度增加细胞在静止期的密度,还有助于抑制脂多糖介导的 NF-κB 激活。总之,这些数据表明,糖胺聚糖降解对粪肠球菌在泌尿道和血流感染期间的致病机制非常重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Infection and Immunity
Infection and Immunity 医学-传染病学
CiteScore
6.00
自引率
6.50%
发文量
268
审稿时长
3 months
期刊介绍: Infection and Immunity (IAI) provides new insights into the interactions between bacterial, fungal and parasitic pathogens and their hosts. Specific areas of interest include mechanisms of molecular pathogenesis, virulence factors, cellular microbiology, experimental models of infection, host resistance or susceptibility, and the generation of innate and adaptive immune responses. IAI also welcomes studies of the microbiome relating to host-pathogen interactions.
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