Department of Microbiology, Division of Laboratory Medicine, Oslo University Hospital, Oslo, Norway.
Division of Clinical Microbiology, Department of Laboratory Medicine, Karolinska Institutegrid.4714.6t, Stockholm, Sweden.
Microbiol Spectr. 2022 Aug 31;10(4):e0066022. doi: 10.1128/spectrum.00660-22. Epub 2022 Jun 22.
Shiga toxin-producing Escherichia coli (STEC) infection can cause mild to severe illness, such as nonbloody or bloody diarrhea, and the fatal hemolytic uremic syndrome (HUS). The molecular mechanism underlying the variable pathogenicity of STEC infection is not fully defined so far. Here, we performed a comparative genomics study on a large collection of clinical STEC strains collected from STEC-infected pediatric patients with and without HUS in Finland over a 16-year period, aiming to identify the bacterial genetic factors that can predict the risk to cause HUS and poor renal outcome. Of 240 STEC strains included in this study, 52 (21.7%) were from pediatric patients with HUS. Serotype O157:H7 was the main cause of HUS, and Shiga toxin gene subtype was significantly associated with HUS. Comparative genomics and pangenome-wide association studies identified a number of virulence and accessory genes overrepresented in HUS-associated STEC compared to non-HUS STEC strains, including genes encoding cytolethal distending toxins, type III secretion system effectors, adherence factors, etc. No virulence or accessory gene was significantly associated with risk factors for poor renal outcome among HUS patients assessed in this study, including need for and duration of dialysis, presence and duration of anuria, and leukocyte counts. Whole-genome phylogeny and multiple-correspondence analysis of pangenomes could not separate HUS STEC from non-HUS STEC strains, suggesting that STEC strains with diverse genetic backgrounds may independently acquire genetic elements that determine their varied pathogenicity. Our findings indicate that nonbacterial factors, i.e., characteristics of the host immunity, might affect STEC virulence and clinical outcomes. Shiga toxin-producing Escherichia coli (STEC) is a serious public health burden worldwide which causes outbreaks of gastrointestinal diseases and the fatal hemolytic uremic syndrome (HUS) characterized by the triad of mechanical hemolytic anemia, thrombocytopenia, and acute renal failure. Understanding the mechanism underlying the disease severity and patient outcome is of high importance. Using comparative genomics on a large collection of clinical STEC strains from STEC-infected patients with and without HUS, our study provides a reference of STEC genetic factors/variants that can be used as predictors of the development of HUS, which will aid risk assessment at the early stage of STEC infection. Additionally, our findings suggest that nonbacterial factors may play a primary role in the renal outcome in STEC-infected patients with HUS; further studies are needed to validate this.
产志贺毒素大肠杆菌(STEC)感染可引起轻至重度疾病,如无血或血便腹泻,以及致命的溶血性尿毒综合征(HUS)。STEC 感染的变异性致病性的分子机制目前尚未完全确定。在此,我们对来自芬兰 16 年间感染 STEC 的儿科患者中有无 HUS 的 STEC 临床菌株进行了大规模的比较基因组学研究,旨在鉴定可预测发生 HUS 和不良肾脏结局风险的细菌遗传因素。在本研究中纳入的 240 株 STEC 中,有 52 株(21.7%)来自发生 HUS 的儿科患者。血清型 O157:H7 是 HUS 的主要原因,志贺毒素基因亚型 与 HUS 显著相关。比较基因组学和泛基因组全关联研究鉴定出与非 HUS-STEC 菌株相比,在与 HUS 相关的 STEC 中大量存在的毒力和辅助基因,包括编码细胞致死扩张毒素、III 型分泌系统效应物、粘附因子等的基因。在本研究中,未发现与 HUS 患者不良肾脏结局的危险因素(包括需要和持续时间的透析、有无和持续时间的无尿以及白细胞计数)显著相关的毒力或辅助基因。全基因组系统发育和泛基因组的多元对应分析不能将 HUS-STEC 与非 HUS-STEC 菌株分开,这表明具有不同遗传背景的 STEC 菌株可能独立获得决定其不同致病性的遗传成分。我们的研究结果表明,非细菌因素,即宿主免疫的特征,可能会影响 STEC 的毒力和临床结局。产志贺毒素大肠杆菌(STEC)是一种严重的全球公共卫生负担,可引起胃肠道疾病爆发,并导致致命的溶血性尿毒综合征(HUS),其特征为机械性溶血性贫血、血小板减少和急性肾衰竭三联征。了解疾病严重程度和患者结局的发病机制非常重要。本研究使用比较基因组学方法对来自有无 HUS 的 STEC 感染患者的大量临床 STEC 菌株进行了研究,为可作为 HUS 发展预测因子的 STEC 遗传因素/变异体提供了参考,这将有助于在 STEC 感染的早期阶段进行风险评估。此外,我们的研究结果表明,非细菌因素可能在 HUS 感染患者的肾脏结局中起主要作用;需要进一步的研究来验证这一点。
