Bacterial Epidemiology and Antimicrobial Resistance Research Unit, Agricultural Research Service, U.S. Department of Agriculture, Athens, Georgia, USA.
Oak Ridge Institute for Science and Education, Oak Ridge, Tennessee, USA.
Appl Environ Microbiol. 2022 May 24;88(10):e0039322. doi: 10.1128/aem.00393-22. Epub 2022 May 9.
As the cases of Salmonella enterica infections associated with contaminated water are increasing, this study was conducted to address the role of surface water as a reservoir of S. enterica serotypes. We sampled rivers and streams ( = 688) over a 3-year period (2015 to 2017) in a mixed-use watershed in Georgia, USA, and 70.2% of the total stream samples tested positive for Salmonella. A total of 1,190 isolates were recovered and characterized by serotyping, antimicrobial susceptibility testing, and pulsed-field gel electrophoresis (PFGE). A wide range of serotypes was identified, including those commonly associated with humans and animals, with S. enterica serotype Muenchen being predominant (22.7%) and each serotype exhibiting a high degree of strain diversity by PFGE. About half (46.1%) of the isolates had PFGE patterns indistinguishable from those of human clinical isolates in the CDC PulseNet database. A total of 52 isolates (4.4%) were resistant to antimicrobials, out of which 43 isolates were multidrug resistant (MDR; resistance to two or more classes of antimicrobials). These 52 resistant Salmonella isolates were screened for the presence of antimicrobial resistance genes, plasmid replicons, and class 1 integrons, out of which four representative MDR isolates were selected for whole-genome sequencing analysis. The results showed that 28 MDR isolates resistant to 10 antimicrobials had on an A/C plasmid. Persistent contamination of surface water with a high diversity of Salmonella strains, some of which are drug resistant and genetically indistinguishable from human isolates, supports a role of environmental surface water as a reservoir for and transmission route of this pathogen. Salmonella has been traditionally considered a foodborne pathogen, as it is one of the most common etiologies of foodborne illnesses worldwide; however, recent Salmonella outbreaks attributed to fresh produce and water suggest a potential environmental source of Salmonella that causes some human illnesses. Here, we investigated the prevalence, diversity, and antimicrobial resistance of Salmonella isolated from a mixed-use watershed in Georgia, USA, in order to enhance the overall understanding of waterborne Salmonella. The persistence and widespread distribution of Salmonella in surface water confirm environmental sources of the pathogen. A high proportion of waterborne Salmonella with clinically significant serotypes and genetic similarity to strains of human origin supports the role of environmental water as a significant reservoir of Salmonella and indicates a potential waterborne transmission of Salmonella to humans. The presence of antimicrobial-resistant and MDR Salmonella demonstrates additional risks associated with exposure to contaminated environmental water.
由于与污染水有关的沙门氏菌感染病例不断增加,本研究旨在探讨地表水作为沙门氏菌血清型储存库的作用。我们在 3 年内(2015 年至 2017 年)对美国佐治亚州一个混合用途流域的河流和溪流进行了采样( = 688),70.2%的溪流样本检测到沙门氏菌呈阳性。共回收并鉴定了 1190 株分离株,包括血清分型、抗菌药物敏感性试验和脉冲场凝胶电泳(PFGE)。鉴定出多种血清型,包括与人类和动物有关的常见血清型,其中沙门氏菌血清型慕尼黑(Muenchen)为主导血清型(22.7%),通过 PFGE 每种血清型均表现出高度的菌株多样性。约一半(46.1%)的分离株的 PFGE 模式与 CDC PulseNet 数据库中人类临床分离株无法区分。共有 52 株(4.4%)分离株对抗菌药物具有耐药性,其中 43 株为多药耐药(MDR;对两种或两种以上类别的抗菌药物耐药)。对这 52 株耐药沙门氏菌分离株进行了抗菌药物耐药基因、质粒复制子和 1 类整合子的筛查,其中 4 株代表性的 MDR 分离株被选择进行全基因组测序分析。结果表明,28 株对 10 种抗菌药物耐药的 MDR 分离株在 A/C 质粒上。高多样性的沙门氏菌菌株持续污染地表水,其中一些对药物具有耐药性,并且与人类分离株在基因上无法区分,这支持了环境地表水作为该病原体的储存库和传播途径的作用。沙门氏菌一直被认为是食源性病原体,因为它是全球最常见的食源性疾病病因之一;然而,最近归因于新鲜农产品和水的沙门氏菌暴发表明,沙门氏菌可能存在环境来源,导致一些人类疾病。在这里,我们调查了美国佐治亚州一个混合用途流域分离的沙门氏菌的流行率、多样性和抗菌药物耐药性,以增强对水传播沙门氏菌的整体认识。沙门氏菌在地表水的持续存在和广泛分布证实了病原体的环境来源。高比例的水传播沙门氏菌具有临床意义的血清型和与人类来源菌株的遗传相似性,支持环境水作为沙门氏菌的重要储存库的作用,并表明沙门氏菌可能通过水传播给人类。耐抗菌药物和 MDR 沙门氏菌的存在表明与接触受污染的环境水相关的额外风险。
