Staphylococcus epidermidis ST2 strains associated with bloodstream infections contain a unique mobile genetic element encoding a plasmin inhibitor.

IF 5.1 1区 生物学 Q1 MICROBIOLOGY mBio Pub Date : 2024-11-19 DOI:10.1128/mbio.01907-24
Amy A Gomez, Clara Kjerfve, Minseo Choi, Wen Liu, Kelly Churion, Sheila Thomas, Holger Rohde, Sam Shelburne, Jon T Skare, Magnus Hook, Srishtee Arora
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Abstract

Staphylococcus epidermidis, a common commensal bacterium, is a leading cause of nosocomial catheter-associated bloodstream infections. S. epidermidis sequence type 2 (ST2) is specifically recognized globally for causing invasive disease. In this study, we identified a novel putative integrated conjugative element, pICE-Sepi-ST2, unique to the genomes of S. epidermidis ST2. Our investigation identified pICE-Sepi-ST2 in all ST2 isolates from bloodstream infections. Meanwhile, ST2 isolates from other infection sources, such as catheters, prosthetic joints, and fracture fixations, showed variable pICE-Sepi-ST2 prevalence. pICE-Sepi-ST2 encodes two putative cell wall anchored proteins that we have designated SesX and SesY. Biochemical characterization of SesY revealed that it binds both plasminogen (Plg) and plasmin (Pln) and inhibits Pln's ability to cleave a chromogenic substrate and degrade fibrin clots. Furthermore, all ST2 isolates containing a pICE-Sepi-ST2 also have a mutated sdrG gene. Thus, all ST2 isolates have two genetic modifications that target distinct steps in the hemostatic pathway. SdrG, which inhibits coagulation, is inactivated, and SesY, which inhibits fibrin, is introduced. These findings suggest that the hemostasis pathway is a strategic target for ST2 S. epidermidis bloodstream pathogenesis.

Importance: This study uncovers a new virulence mechanism in Staphylococcus epidermidis ST2 bloodstream isolates. We identify a mobile genetic element (MGE) characteristic of an integrated conjugated element (ICE). pICE-Sepi-ST2 carries the genetic information needed to produce a cell wall-anchored (CWA) protein called SesY. The results indicate that SesY binds to plasminogen (Plg) and plasmin (Pln) and inhibits Pln's degradation of fibrin clots. Genetic analysis showed that all ST2 bloodstream isolates can express the plasmin inhibitor SesY and carry a mutation in the SdrG gene, resulting in the expression of inactive SdrG. Thus, we describe a molecular pathway targeting the coagulation pathway that may be required for S. epidermidis ST2 to cause bloodstream infections.

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与血流感染有关的表皮葡萄球菌 ST2 菌株含有一种独特的移动遗传因子,该遗传因子编码一种血浆蛋白酶抑制剂。
表皮葡萄球菌是一种常见的共生细菌,也是引起院内导管相关血流感染的主要原因。表皮葡萄球菌序列 2 型(ST2)是全球公认的引起侵袭性疾病的特异性细菌。在这项研究中,我们发现了表皮葡萄球菌 ST2 基因组中独有的新型推定整合共轭元件 pICE-Sepi-ST2。我们的调查在所有来自血液感染的 ST2 分离物中都发现了 pICE-Sepi-ST2。pICE-Sepi-ST2 编码两种推定的细胞壁锚定蛋白,我们将其命名为 SesX 和 SesY。SesY 的生化特征显示,它能与纤溶酶原(Plg)和纤溶酶(Pln)结合,并抑制 Pln 裂解显色底物和降解纤维蛋白凝块的能力。此外,所有含有 pICE-Sepi-ST2 的 ST2 分离物的 sdrG 基因也发生了突变。因此,所有 ST2 分离物都有两种针对止血途径中不同步骤的基因修饰。抑制凝血的 SdrG 基因失活,而抑制纤维蛋白的 SesY 基因被引入。这些发现表明,止血途径是 ST2 表皮葡萄球菌血流致病的战略目标:本研究在表皮葡萄球菌 ST2 血流分离株中发现了一种新的致病机制。pICE-Sepi-ST2 携带产生一种名为 SesY 的细胞壁锚定(CWA)蛋白所需的遗传信息。结果表明,SesY 能与纤溶酶原(Plg)和纤溶酶(Pln)结合,并抑制 Pln 对纤维蛋白凝块的降解。遗传分析表明,所有 ST2 血流分离株都能表达纤溶酶原抑制剂 SesY,并携带 SdrG 基因突变,导致表达无活性的 SdrG。因此,我们描述了一种针对凝血途径的分子途径,它可能是表皮葡萄球菌 ST2 引起血流感染所必需的。
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来源期刊
mBio
mBio MICROBIOLOGY-
CiteScore
10.50
自引率
3.10%
发文量
762
审稿时长
1 months
期刊介绍: mBio® is ASM''s first broad-scope, online-only, open access journal. mBio offers streamlined review and publication of the best research in microbiology and allied fields.
期刊最新文献
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