The Pathogen and Microbiome Institute, Northern Arizona University, Flagstaff, AZ, USA.
Flagstaff Medical Center, Flagstaff, AZ, USA.
Microb Genom. 2023 Jun;9(6). doi: 10.1099/mgen.0.001046.
Although infections caused by have historically been attributed to hospital acquisition, growing evidence supports the role of community acquisition in infection (CDI). Symptoms of CDI can range from mild, self-resolving diarrhoea to toxic megacolon, pseudomembranous colitis, and death. In this study, we sampled from clinical, environmental, and canine reservoirs in Flagstaff, Arizona, USA, to understand the distribution and transmission of the pathogen in a One Health framework; Flagstaff is a medium-sized, geographically isolated city with a single hospital system, making it an ideal site to characterize genomic overlap between sequenced isolates across reservoirs. An analysis of 562 genomes from Flagstaff isolates identified 65 sequence types (STs), with eight STs being found across all three reservoirs and another nine found across two reservoirs. A screen of toxin genes in the pathogenicity locus identified nine STs where all isolates lost the toxin genes needed for CDI manifestation (, ), demonstrating the widespread distribution of non-toxigenic (NTCD) isolates in all three reservoirs; 15 NTCD genomes were sequenced from symptomatic, clinical samples, including two from mixed infections that contained both and - isolates. A comparative single nucleotide polymorphism (SNP) analysis of clinically derived isolates identified 78 genomes falling within clusters separated by ≤2 SNPs, indicating that ~19 % of clinical isolates are associated with potential healthcare-associated transmission clusters; only symptomatic cases were sampled in this study, and we did not sample asymptomatic transmission. Using this same SNP threshold, we identified genomic overlap between canine and soil isolates, as well as putative transmission between environmental and human reservoirs. The core genome of isolates sequenced in this study plus a representative set of public genomes (=136), was 2690 coding region sequences, which constitutes ~70 % of an individual genome; this number is significantly higher than has been published in some other studies, suggesting that genome data quality is important in understanding the minimal number of genes needed by . This study demonstrates the close genomic overlap among isolates sampled across reservoirs, which was facilitated by maximizing the genomic search space used for comprehensive identification of potential transmission events. Understanding the distribution of toxigenic and non-toxigenic across reservoirs has implications for surveillance sampling strategies, characterizing routes of infections, and implementing mitigation measures to limit human infection.
虽然历史上认为 感染是在医院获得的,但越来越多的证据支持社区获得性感染(CDI)在 感染中的作用。CDI 的症状范围从轻度、自限性腹泻到中毒性巨结肠、伪膜性结肠炎和死亡。在这项研究中,我们从美国亚利桑那州弗拉格斯塔夫的临床、环境和犬科储层中采样,以了解病原体在一个健康框架中的分布和传播;弗拉格斯塔夫是一个中等规模的、地理位置孤立的城市,只有一个单一的医院系统,这使其成为一个理想的地点,可以对储层之间测序的 分离株的基因组重叠进行特征描述。对弗拉格斯塔夫分离株的 562 个基因组的分析确定了 65 个序列型(ST),其中 8 个 ST 存在于所有三个储层中,另外 9 个 ST 存在于两个储层中。对毒力基因在致病基因座中的筛选发现,有 9 个 ST 所有分离株均丢失了导致 CDI 表现所需的毒素基因(,),表明所有三个储层中均广泛分布无毒性 (NTCD)分离株;从有症状的临床样本中测序了 15 个 NTCD 基因组,包括两个来自混合感染的样本,其中含有 和 -分离株。对临床分离株进行的比较单核苷酸多态性(SNP)分析确定了 78 个基因组属于≤2 个 SNP 分离的簇,表明19%的临床分离株与潜在的与医疗保健相关的传播簇有关;在这项研究中,仅对有症状的病例进行了采样,并且我们没有采样无症状的传播。使用相同的 SNP 阈值,我们在犬科和土壤分离株之间以及环境和人类储层之间的潜在传播中发现了基因组重叠。在这项研究中测序的分离株的核心基因组加上一组代表性的公共 基因组(=136)是 2690 个编码区序列,约占单个 基因组的70%;这一数字明显高于在其他一些研究中公布的数字,表明基因组数据质量对于理解 所需的最小基因数量非常重要。这项研究表明,储层中采样的分离株之间存在密切的基因组重叠,这得益于最大限度地扩大了用于全面识别潜在传播事件的基因组搜索空间。了解毒力和非毒力 在储层中的分布对监测采样策略、特征感染途径以及实施减轻措施以限制人类感染具有重要意义。
