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地理上不同克隆株 O113:H21 中志贺毒素产生的病原体基因组和变异。

Pathogenomes and variations in Shiga toxin production among geographically distinct clones of O113:H21.

机构信息

Department of Molecular Microbiology and Immunology, University of Texas at San Antonio, San Antonio, TX, USA.

South Texas Center for Emerging Infectious Diseases (STCEID), San Antonio, TX, USA.

出版信息

Microb Genom. 2022 Apr;8(4). doi: 10.1099/mgen.0.000796.

DOI:10.1099/mgen.0.000796
PMID:35394418
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9453080/
Abstract

Infections with globally disseminated Shiga toxin-producing (STEC) of the O113:H21 serotype can progress to severe clinical complications, such as hemolytic uremic syndrome (HUS). Two phylogeographically distinct clonal complexes have been established by multi locus sequence typing (MLST). Infections with ST-820 isolates circulating exclusively in Australia have caused severe human disease, such as HUS. Conversely, ST-223 isolates prevalent in the US and outside Australia seem to rarely cause severe human disease but are frequent contaminants. Following a genomic epidemiology approach, we wanted to gain insights into the underlying cause for this disparity. We examined the plasticity in the genome make-up and Shiga toxin production in a collection of 20 ST-820 and ST-223 strains isolated from produce, the bovine reservoir, and clinical cases. STEC are notorious for assembly into fragmented draft sequences when using short-read sequencing technologies due to the extensive and partly homologous phage complement. The application of long-read technology (LRT) sequencing yielded closed reference chromosomes and plasmids for two representative ST-820 and ST-223 strains. The established high-resolution framework, based on whole genome alignments, single nucleotide polymorphism (SNP)-typing and MLST, includes the chromosomes and plasmids of other publicly available O113:H21 sequences and allowed us to refine the phylogeographical boundaries of ST-820 and ST-223 complex isolates and to further identify a historic non-shigatoxigenic strain from Mexico as a quasi-intermediate. Plasmid comparison revealed strong correlations between the strains' featured pO113 plasmid genotypes and chromosomally inferred ST, which suggests coevolution of the chromosome and virulence plasmids. Our pathogenicity assessment revealed statistically significant differences in the Stx-production capabilities of ST-820 as compared to ST-223 strains under RecA-induced Stx phage mobilization, a condition that mimics Stx-phage induction. These observations suggest that ST-820 strains may confer an increased pathogenic potential in line with the strain-associated epidemiological metadata. Still, some of the tested ST-223 cultures sourced from contaminated produce or the bovine reservoir also produced Stx at levels comparable to those of ST-820 isolates, which calls for awareness and for continued surveillance of this lineage.

摘要

具有全球传播能力的产志贺毒素大肠杆菌(STEC)O113:H21 血清型感染可进展为严重的临床并发症,如溶血性尿毒综合征(HUS)。多位点序列分型(MLST)已确定了两个具有明显地理差异的克隆复合体。仅在澳大利亚流行的 ST-820 分离株引起了严重的人类疾病,如 HUS。相反,在美国和澳大利亚以外流行的 ST-223 分离株似乎很少引起严重的人类疾病,但却是常见的污染物。通过基因组流行病学方法,我们希望深入了解这种差异的根本原因。我们研究了从农产品、牛源和临床病例中分离的 20 株 ST-820 和 ST-223 菌株的基因组组成和志贺毒素产生的可塑性。由于广泛且部分同源的噬菌体成分,使用短读测序技术时,STEC 容易组装成碎片化的草图序列。长读测序技术(LRT)测序的应用为 2 株代表性 ST-820 和 ST-223 菌株生成了闭合参考染色体和质粒。基于全基因组比对、单核苷酸多态性(SNP)分型和 MLST 的高分辨率框架包括其他公开的 O113:H21 序列的染色体和质粒,并允许我们细化 ST-820 和 ST-223 复合体分离株的地理边界,并进一步确定来自墨西哥的历史上非志贺毒素产生菌株为准中间型。质粒比较显示,菌株的特征 pO113 质粒基因型与染色体推断的 ST 之间存在很强的相关性,这表明染色体和毒力质粒的共同进化。我们的致病性评估显示,在 RecA 诱导的 Stx 噬菌体动员条件下,ST-820 菌株的 Stx 产生能力与 ST-223 菌株相比存在统计学显著差异,这种条件模拟了 Stx 噬菌体的诱导。这些观察结果表明,ST-820 菌株可能具有增加的致病性潜力,符合与菌株相关的流行病学元数据。然而,一些源自污染农产品或牛源的测试 ST-223 培养物也产生了与 ST-820 分离株相当水平的 Stx,这需要提高对该谱系的认识并继续进行监测。

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