Characterization of colistin-resistant carbapenemase producing Klebsiella pneumoniae in a river receiving wastewater treatment plant effluent.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-10-01 DOI:10.1093/lambio/ovae090
Pragyan Paramita Swain, Saubhagini Sahoo, Birasen Behera, Dibyajyoti Uttameswar Behera, Enketeswara Subudhi, Rajesh Kumar Sahoo
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Abstract

Genes conferring antibiotic resistance phenotype, particularly to last resort antibiotics, pose a significant concern globally. Wastewater treatment plant (WWTP) effluent substantially contributes to antibiotic resistance in receiving rivers, threatening human health. Globally, colistin- and carbapenem-resistant Klebsiella pneumoniae infections cause high morbidity and mortality. We investigated colistin-resistant carbapenemase-producing K. pneumoniae (Co-CRKP) isolates in Kathajodi river receiving WWTP effluent, their resistance genes, and pathogenic potential. Four isolates (Co-CRKP-7, Co-CRKP-8, Co-CRKP-10, and Co-CRKP-15) exhibited extensively drug-resistant (XDR) phenotype, harbouring blaTEM-1, blaCTX-M-15, blaNDM-5, and blaOXA-48 genes. Colistin resistance was attributed to mutations in the pmrA and pmrB genes. Virulence genes (fimH, mrkD, entB, iucA, iutA, and irp1), capsular serotypes (K1, K2) and biofilm formation in the isolates explicated their pathogenicity. Furthermore, Inc plasmid replicons (Y, FrepB, P, K/B, L/M, N, FIA, A/C, and FIB) indicated the dissemination potential of the resistance genes in Co-CRKP isolates. The multi-locus sequence typing showed that Co-CRKP-7 and Co-CRKP-8 belonged to ST42, while Co-CRKP-10 and Co-CRKP-15 were ST16 and ST231, respectively. These high-risk clones carrying multidrug resistance and virulence genes, implicated in numerous outbreaks, have spread worldwide. Our findings emphasize the necessity for effective treatment of hospital wastes to restrict the spread of clinical isolates into aquatic environments.

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接收污水处理厂污水的河流中产生耐大肠菌素碳青霉烯酶肺炎克雷伯氏菌的特征。
赋予抗生素耐药性表型的基因,尤其是对最后一种抗生素的耐药性,在全球范围内引起了极大的关注。污水处理厂(WWTP)排出的废水大大增加了受纳河流的抗生素耐药性,威胁人类健康。在全球范围内,耐大肠菌素和碳青霉烯类抗生素的肺炎克雷伯菌感染导致了很高的发病率和死亡率。我们调查了接受污水处理厂污水的卡塔约迪河中耐受大肠菌素碳青霉烯酶的肺炎克雷伯菌(Co-CRKP)分离株、它们的耐药基因和致病潜力。四个分离株(Co-CRKP-7、Co-CRKP-8、Co-CRKP-10 和 Co-CRKP-15)表现出广泛耐药(XDR)表型,携带 blaTEM-1、blaCTX-M-15、blaNDM-5 和 blaOXA-48 基因。对秋水仙素的耐药性归因于 pmrA 和 pmrB 基因的突变。分离物中的致病基因(fimH、mrkD、entB、iucA、iutA 和 irp1)、菌盖血清型(K1、K2)和生物膜的形成说明了它们的致病性。此外,Inc 质粒复制子(Y、FrepB、P、K/B、L/M、N、FIA、A/C 和 FIB)表明了耐药基因在 Co-CRKP 分离物中的传播潜力。多焦点序列分型(MLST)显示,Co-CRKP-7 和 Co-CRKP-8 属于 ST42,而 Co-CRKP-10 和 Co-CRKP-15 分别属于 ST16 和 ST231。这些携带多重耐药基因和毒力基因的高危克隆与多次疫情爆发有关,并已扩散到世界各地。我们的研究结果表明,有必要对医院废物进行有效处理,以限制临床分离物在水生环境中的传播。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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