Mukherjee Subhankar, Bhadury Punyasloke, Mitra Shravani, Naha Sharmi, Saha Bijan, Dutta Shanta, Basu Sulagna
Division of Bacteriology, ICMR-National Institute of Cholera and Enteric Diseases, Kolkata, West Bengal, India.
Integrative Taxonomy and Microbial Ecology Research Group, Department of Biological Sciences, Indian Institute of Science Education and Research Kolkata, Mohanpur, Nadia, West Bengal, India.
Microbiol Spectr. 2023 Feb 8;11(2):e0412122. doi: 10.1128/spectrum.04121-22.
Klebsiella pneumoniae is a major cause of neonatal sepsis. Hypervirulent Klebsiella pneumoniae (hvKP) that cause invasive infections and/or carbapenem-resistant hvKP (CR-hvKP) limit therapeutic options. Such strains causing neonatal sepsis have rarely been studied. Characterization of neonatal septicemic hvKP/CR-hvKP strains in terms of resistance and virulence was carried out. Antibiotic susceptibility, molecular characterization, evaluation of clonality, virulence, and transmissibility of carbapenemase genes were evaluated. Whole-genome sequencing (WGS) and mouse lethality assays were performed on strains harboring pLVPK-associated markers. About one-fourth (26%, 28/107) of the studied strains, leading to mortality in 39% (11/28) of the infected neonates, were categorized as hvKP. hvKP-K2 was the prevalent pathotype (64.2%, 18/28), but K54 and K57 were also identified. Most strains were clonally diverse belonging to 12 sequence types, of which ST14 was most common. Majority of hvKPs possessed virulence determinants, strong biofilm-forming, and high serum resistance ability. Nine hvKPs were carbapenem-resistant, harboring / on conjugative plasmids of different replicon types. Two NDM-1-producing high-risk clones, ST11 and ST15, had pLVPK-associated markers (, , , , and ), of which one co-transferred the markers along with . The 2 strains revealed high inter-genomic resemblance with the other hvKP reference genomes, and were lethal in mouse model. To the best of our knowledge, this study is the first to report on the NDM-1-producing hvKP ST11-K2 and ST15-K54 strains causing fatal neonatal sepsis. The presence of pLVPK-associated markers and in high-risk clones, and the co-transmission of these genes via conjugation calls for surveillance of these strains. Klebsiella pneumoniae is a leading cause of sepsis in newborns and adults. Among the 2 major pathotypes of K. pneumoniae, classical (cKP) and hypervirulent (hvKP), hvKP causes community-acquired severe fatal invasive infections in even healthy individuals, as it possesses several virulence factors. The lack of comprehensive studies on neonatal septicemic hvKPs prompted this work. Nearly 26% diverse hvKP strains were recovered possessing several resistance and virulence determinants. The majority of them exhibited strong biofilm-forming and high serum resistance ability. Nine of these strains were also carbapenem (last-resort antibiotic)-resistant, of which 2 high-risk clones (ST11-K2 and ST15-K54) harbored markers (pLVPK) noted for their virulence, and were lethal in the mouse model. Genome-level characterization of the high-risk clones showed resemblance with the other hvKP reference genomes. The presence of transmissible carbapenem-resistant gene, , along with pLVPK-markers calls for vigilance, as most clinical microbiology laboratories do not test for them.
肺炎克雷伯菌是新生儿败血症的主要病因。引起侵袭性感染的高毒力肺炎克雷伯菌(hvKP)和/或耐碳青霉烯类高毒力肺炎克雷伯菌(CR-hvKP)限制了治疗选择。此类引起新生儿败血症的菌株鲜有研究。我们对新生儿败血症性hvKP/CR-hvKP菌株的耐药性和毒力进行了特征分析。评估了抗生素敏感性、分子特征、克隆性、毒力以及碳青霉烯酶基因的传播性。对携带与pLVPK相关标记的菌株进行了全基因组测序(WGS)和小鼠致死性试验。约四分之一(26%,28/107)的研究菌株被归类为hvKP,导致39%(11/28)的感染新生儿死亡。hvKP-K2是最常见的致病型(64.2%,18/28),但也鉴定出了K54和K57。大多数菌株克隆多样,属于12种序列类型,其中ST14最为常见。大多数hvKP菌株具有毒力决定因素、较强的生物膜形成能力和较高的血清抗性。9株hvKP对碳青霉烯类耐药,携带不同复制子类型的接合质粒上携带blaNDM-1。两个产NDM-1的高危克隆ST11和ST15具有与pLVPK相关的标记(blaNDM-1、blaOXA-48、blaCTX-M-15、blaTEM-1和blaSHV-12),其中一个与blaNDM-1一起共转移这些标记。这2株菌株与其他hvKP参考基因组显示出高度基因组相似性,并且在小鼠模型中具有致死性。据我们所知,本研究首次报道了产NDM-1的hvKP ST11-K2和ST15-K54菌株导致致命的新生儿败血症。高危克隆中存在与pLVPK相关的标记和blaNDM-1,以及这些基因通过接合作用的共同传播,需要对这些菌株进行监测。肺炎克雷伯菌是新生儿和成人败血症的主要病因。在肺炎克雷伯菌的两种主要致病型中,经典型(cKP)和高毒力型(hvKP),hvKP即使在健康个体中也会引起社区获得性严重致命侵袭性感染,因为它具有多种毒力因子。缺乏对新生儿败血症性hvKP的全面研究促使了这项工作。我们分离出了近26%的不同hvKP菌株,它们具有多种耐药性和毒力决定因素。其中大多数表现出较强的生物膜形成能力和较高的血清抗性。其中9株菌株还对碳青霉烯类(最后手段抗生素)耐药,其中2个高危克隆(ST11-K2和ST15-K54)携带以其毒力而闻名的标记(pLVPK),并且在小鼠模型中具有致死性。高危克隆的基因组水平特征与其他hvKP参考基因组相似。可传播的耐碳青霉烯基因blaNDM-1与pLVPK标记的存在需要引起警惕,因为大多数临床微生物实验室不会对它们进行检测。
