Analysis of the virulence of a lethal, carbapenem-resistant hypervirulent KPC-33-producing Klebsiella pneumoniae: Emergence of ST11-KL64 hv-CRKP in ICU

IF 3.3 3区医学 Q3 IMMUNOLOGY Microbial pathogenesis Pub Date : 2024-11-23 DOI:10.1016/j.micpath.2024.107154

Yuzhong Yan , Nana Kong , Yuxiao Niu , Kangde Sun , Wenxia Zhang

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Abstract

Objective

Hypervirulent and carbapenem-resistant Klebsiella pneumoniae (hv-CRKP) poses a serious threat to public health. Here, we analyse a case of systemic infection caused by a hv-CRKP, which ultimately led to the patient's death from sepsis. And a total of 30 CRKPs were analyzed to elucidate the molecular epidemiological features of CRKPs in the hospital, and to provide a basis for clinical anti-infective therapy.

Methods

In this case, a total of 7 K. pneumoniae strains were isolated from the blood, sputum, urine, and feces of the patient. The Vitek-2 compact system was used to identify the strains and perform antimicrobial susceptibility testing. Biofilm formation, siderophore production assays and Galleria mellonella infection model were used to verify the virulence phenotypes of the strains in the case. Whole-genome sequencing was conducted on the four hv-CRKP isolated from different samples in the case and 26 other CRKP collected in our hospital from September to November in 2022, using the Illumina Hiseq 6000 high-throughput sequencing platform to analyse the resistance and virulence genes.

Results

In the case, after 7 days of treatment with ceftazidime-avibactam (CZA), the resistance profile of the strains changed. The strain that was initially sensitive to CZA developed to resistant, resistant to imipenem (IPM) developed to sensitive, and resistant to meropenem (MEM) developed to intermediate. Whole-genome sequencing revealed that the four strains in the case were all ST11-KL64 K. pneumoniae, and the change in resistance phenotype was due to the mutation from bla_KPC-2 to bla_KPC-33. KPN7 had a total of six plasmids, with siderophore-related genes iucABCD and iutA, and mucoid phenotype-related gene rmpA2 located on plasmid p4-KPN7; resistance genes bla_KPC-33, bla_TEM-1B, and bla_CTX-M-65 located on plasmid p5-KPN7; and virulence genes fim, irp, iutA, and ybt located on the chromosome. Biofilm formation and siderophore production assays confirmed that the seven K. pneumoniae strains isolated in this case had strong biofilm formation and siderophore production capabilities. Galleria mellonella Infection Model showed that KPN4 and KPN7 was phenotypically highly virulent and KPN7 performed lower virulence compared to KPN4. Apart from the 4 hv-CRKP strains, other 26 CRKP strains all carried bla_KPC-2, and 69.2% (18/26) were ST-11 and 30.8%(8/26) were ST-15. And 83.3% (15/18) were ST11-KL64 strains, followed by ST11-KL25 strains 11.1%(2/18) and ST11-KL47 strain 5.6%(1/18). All the eight ST-15 strains were KL-19.

Conclusion

The ST11-KL64 hv-CRKP clone spread widely in ICU carried numerous resistance and virulence genes, and under antibiotic pressure, they easily underwent mutations resulting in changes in resistance phenotypes, especially in mutations of bla_KPC-2 gene in acquiring resistance to CZA. Therefore, clinical attention should be paid to such strains, and the use of antibiotics should be adjusted promptly based on the susceptibility of the strains to antimicrobial agents.

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分析产生 KPC-33 的致命、耐碳青霉烯类抗生素的高病毒性肺炎克雷伯氏菌 ST-11 的毒性。

目的：高病毒性和耐碳青霉烯类肺炎克雷伯氏菌（hv-CRKP）对公共卫生构成严重威胁。在此，我们分析了一例由 hv-CRKP 引起的全身感染病例，该病例最终导致患者死于败血症。并对30例CRKP进行了分析，以阐明医院中CRKP的分子流行病学特征，为临床抗感染治疗提供依据：本病例中，从患者的血液、痰液、尿液和粪便中共分离出 7 株肺炎克雷伯菌。使用 Vitek-2 紧凑型系统对菌株进行鉴定，并进行抗菌药敏感性测试。生物膜形成、嗜苷酸生成试验和Galleria mellonella感染模型被用来验证病例中菌株的毒力表型。利用Illumina Hiseq 6000高通量测序平台，对病例中从不同样本中分离出的4株hv-CRKP和2022年9月至11月期间在本院收集的其他26株CRKP进行了全基因组测序，以分析抗性基因和毒力基因：结果发现，在使用头孢他啶-阿维巴坦（CZA）治疗7天后，菌株的耐药性发生了变化。最初对头孢他啶-阿维菌素（CZA）敏感的菌株发展为耐药菌株，对亚胺培南（IPM）耐药的菌株发展为敏感菌株，对美罗培南（MEM）耐药的菌株发展为中间耐药菌株。全基因组测序显示，该病例中的四株菌株均为 ST11-KL64 K. pneumoniae，耐药表型的改变是由于 blaKPC-2 突变为 blaKPC-33 所致。KPN7 共有 6 个质粒，其中嗜苷酸相关基因 iucABCD 和 iutA 以及黏液表型相关基因 rmpA2 位于质粒 p4-KPN7；抗性基因 blaKPC-33、blaTEM-1B 和 blaCTX-M-65 位于质粒 p5-KPN7；毒力基因 fim、irp、iutA 和 ybt 位于染色体上。生物膜形成和嗜酸性物质产生试验证实，在本病例中分离出的 7 株肺炎克氏菌具有很强的生物膜形成和嗜酸性物质产生能力。Galleria mellonella 感染模型显示，KPN4 和 KPN7 的表型毒力很强，而 KPN7 的毒力低于 KPN4。除4株hv-CRKP外，其他26株CRKP均携带blaKPC-2，69.2%（18/26）为ST-11，30.8%（8/26）为ST-15。83.3%（15/18）是 ST11-KL64 菌株，其次是 ST11-KL25 菌株 11.1%（2/18）和 ST11-KL47 菌株 5.6%（1/18）。所有 8 株 ST-15 菌株均为 KL-19.Conclusion 菌株：结论：在ICU广泛传播的ST11-KL64 hv-CRKP克隆携带大量耐药和毒力基因，在抗生素压力下容易发生突变，导致耐药表型发生变化，尤其是blaKPC-2基因突变后获得对CZA的耐药性。因此，临床上应关注此类菌株，并根据菌株对抗菌药物的敏感性及时调整抗生素的使用。

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来源期刊

Microbial pathogenesis 医学-免疫学

CiteScore

7.40

自引率

2.60%

发文量

472

审稿时长

56 days

期刊介绍： Microbial Pathogenesis publishes original contributions and reviews about the molecular and cellular mechanisms of infectious diseases. It covers microbiology, host-pathogen interaction and immunology related to infectious agents, including bacteria, fungi, viruses and protozoa. It also accepts papers in the field of clinical microbiology, with the exception of case reports. Research Areas Include: -Pathogenesis -Virulence factors -Host susceptibility or resistance -Immune mechanisms -Identification, cloning and sequencing of relevant genes -Genetic studies -Viruses, prokaryotic organisms and protozoa -Microbiota -Systems biology related to infectious diseases -Targets for vaccine design (pre-clinical studies)