Nhat Ha Minh Truong, Quynh Nguyen, Phat Vinh Voong, Vinh Chau, Nhi Huynh Thanh Nguyen, Tuan Hoa Minh Nguyen, Phuong Hong Vo, Luan Thanh Nguyen, Trinh Thi Phuong Ha, Lan Phu Huong Nguyen, Phuoc Hong Le, Duy Pham Thanh, Hoang Duc Nguyen
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Here, we conducted a genomic investigation of 87 <i>Aeromonas</i> isolates derived from diseased catfish, healthy catfish and environmental water in catfish farms affected by MAS outbreaks in eight provinces in Mekong Delta (years: 2012-2022), together with 25 isolates from humans with bloodstream infections (years: 2010-2020). Genomics-based typing method precisely delineated <i>Aeromonas</i> species while traditional methods such as <i>aerA</i> PCR and MALDI-TOF were unable identify <i>A. dhakensis. A. dhakensis</i> was found to be more prevalent than <i>A. hydrophila</i> in both diseased catfish and human infections. <i>A. dhakensis</i> sequence type (ST) 656 followed by <i>A. hydrophila</i> ST251 were the predominant virulent species-lineages in diseased catfish (43.7 and 20.7 %, respectively), while diverse STs were found in humans with bloodstream infections. There was evidence of widespread transmission of ST656 and ST251 on striped catfish in the Mekong Delta region. ST656 and ST251 isolates carried a significantly higher number of acquired antimicrobial resistance (AMR) genes and virulence factors in comparison to other STs. They, however, exhibited several distinctions in key virulence factors (i.e. lack of type IV pili and enterotoxin <i>ast</i> in <i>A. dhakensis</i>), AMR genes (i.e. presence of <i>imiH</i> carbapenemase in <i>A. dhakensis</i>), and accessory gene content. To uncover potential conserved proteins of <i>Aeromonas</i> spp. for vaccine development, pangenome analysis has unveiled 2202 core genes between ST656 and ST251, of which 78 proteins were in either outer membrane or extracellular proteins. Our study represents one of the first genomic investigations of the species distribution, genetic landscape, and epidemiology of <i>Aeromonas</i> in diseased catfish and human infections in Vietnam. 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引用次数: 0
摘要
气单胞菌属常见于水生环境中,曾引起带鱼运动性气单胞菌败血症(MAS),造成重大经济损失。这些生物也会对免疫系统受损的人类造成一系列机会性感染。在此,我们对湄公河三角洲 8 个省(年份:2012-2022 年)受鲶鱼败血症爆发影响的鲶鱼养殖场中从患病鲶鱼、健康鲶鱼和环境水中分离的 87 株气单胞菌以及 25 株从血液感染人类(年份:2010-2020 年)中分离的气单胞菌进行了基因组学调查。基于基因组学的分型方法精确地划分了气单胞菌的种类,而传统的方法,如 aerA PCR 和 MALDI-TOF,则无法识别 A. dhakensis。在患病鲶鱼和人类感染中,发现 A. dhakensis 比 A. hydrophila 更普遍。在患病的鲶鱼中,达科金氏梭菌的序列类型(ST)656 和嗜水蝇的序列类型(ST)251 是最主要的致病种系(分别为 43.7% 和 20.7%),而在血液感染的人类中则发现了不同的 ST。有证据表明,ST656 和 ST251 在湄公河三角洲地区的带鱼中广泛传播。与其他 ST 相比,ST656 和 ST251 分离物携带的获得性抗菌药耐药性(AMR)基因和毒力因子数量明显较多。然而,它们在关键毒力因子(即 A. dhakensis 缺乏 IV 型纤毛虫和 ast 肠毒素)、AMR 基因(即 A. dhakensis 存在 imiH 碳青霉烯酶)和附属基因含量方面表现出一些差异。为了发掘潜在的保护蛋白用于疫苗开发,庞基因组分析揭示了 ST656 和 ST251 之间的 2202 个核心基因,其中 78 个蛋白属于外膜蛋白或细胞外蛋白。我们的研究是对越南患病鲶鱼和人类感染的气单胞菌的物种分布、遗传景观和流行病学进行的首次基因组研究。抗菌剂耐药性和毒性 A. dhakensis 菌株的出现强调了加强基因组监测和疫苗研发的必要性,以预防鲶鱼和人类的气单胞菌疾病。
Genomic characterization of Aeromonas spp. isolates from striped catfish with motile Aeromonas septicemia and human bloodstream infections in Vietnam.
Aeromonas spp. are commonly found in the aquatic environment and have been responsible for motile Aeromonas septicemia (MAS) in striped catfish, resulting in significant economic loss. These organisms also cause a range of opportunistic infections in humans with compromised immune systems. Here, we conducted a genomic investigation of 87 Aeromonas isolates derived from diseased catfish, healthy catfish and environmental water in catfish farms affected by MAS outbreaks in eight provinces in Mekong Delta (years: 2012-2022), together with 25 isolates from humans with bloodstream infections (years: 2010-2020). Genomics-based typing method precisely delineated Aeromonas species while traditional methods such as aerA PCR and MALDI-TOF were unable identify A. dhakensis. A. dhakensis was found to be more prevalent than A. hydrophila in both diseased catfish and human infections. A. dhakensis sequence type (ST) 656 followed by A. hydrophila ST251 were the predominant virulent species-lineages in diseased catfish (43.7 and 20.7 %, respectively), while diverse STs were found in humans with bloodstream infections. There was evidence of widespread transmission of ST656 and ST251 on striped catfish in the Mekong Delta region. ST656 and ST251 isolates carried a significantly higher number of acquired antimicrobial resistance (AMR) genes and virulence factors in comparison to other STs. They, however, exhibited several distinctions in key virulence factors (i.e. lack of type IV pili and enterotoxin ast in A. dhakensis), AMR genes (i.e. presence of imiH carbapenemase in A. dhakensis), and accessory gene content. To uncover potential conserved proteins of Aeromonas spp. for vaccine development, pangenome analysis has unveiled 2202 core genes between ST656 and ST251, of which 78 proteins were in either outer membrane or extracellular proteins. Our study represents one of the first genomic investigations of the species distribution, genetic landscape, and epidemiology of Aeromonas in diseased catfish and human infections in Vietnam. The emergence of antimicrobial resistant and virulent A. dhakensis strains underscores the needs of enhanced genomic surveillance and strengthening vaccine research and development in preventing Aeromonas diseases in catfish and humans, and the search for potential vaccine candidates could focus on Aeromonas core genes encoded for membrane and secreted proteins.
期刊介绍:
Microbial Genomics (MGen) is a fully open access, mandatory open data and peer-reviewed journal publishing high-profile original research on archaea, bacteria, microbial eukaryotes and viruses.