Rapid Dissemination of Ibla/I[sub.NDM-5] Gene among Carbapenem-Resistant IEscherichia coli/I Isolates in a Yellow-Feather Broiler Farm via Multiple Plasmid Replicon

Although carbapenems have not been approved for animal use, carbapenem-resistant Escherichia coli (CREC) strains are increasingly being detected in food-producing animals, posing a significant public health risk. However, the epidemiological characteristics of CREC isolates in yellow-feather broiler...

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Veröffentlicht in:	Pathogens (Basel) 2024-05, Vol.13 (5)
Hauptverfasser:	Ma, Zhenbao, Wang, Bo, Zeng, Dongping, Ding, Huanzhong, Zeng, Zhenling
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Sprache:	eng
Schlagworte:	Broilers (Poultry) Distribution Drug resistance in microorganisms Escherichia coli Farms Genes Genetic aspects Health aspects Identification and classification Imipenem Oxytetracycline Risk factors
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description	Although carbapenems have not been approved for animal use, carbapenem-resistant Escherichia coli (CREC) strains are increasingly being detected in food-producing animals, posing a significant public health risk. However, the epidemiological characteristics of CREC isolates in yellow-feather broiler farms remain unclear. We comprehensively investigated the genetic features of carbapenem-resistance genes among E. coli isolates recovered from a yellow-feather broiler farm in Guangdong province, China. Among the 172 isolates, 88 (51.2%) were recovered from chicken feces (88.5%, 54/61), the farm environment (51.1%, 24/47), and specimens of dead chickens (15.6%, 41/64). All CREC isolates were positive for the bla [sub.NDM-5] gene and negative for other carbapenem-resistance genes. Among 40 randomly selected isolates subjected to whole-genome sequencing, 10 belonged to distinct sequence types (STs), with ST167 (n = 12) being the most prevalent across different sources, suggesting that the dissemination of bla [sub.NDM-5] was mainly due to horizontal and clonal transmission. Plasmid analysis indicated that IncX3, IncHI2, and IncR-X1-X3 hybrid plasmids were responsible for the rapid transmission of the bla [sub.NDM-5] gene, and the genetic surrounding of bla [sub.NDM-5] contained a common mobile element of the genetic fragment designated “IS5-△ISAba125-bla [sub.NDM-5]-ble [sub.MBL]-trpF-dsbC”. These findings demonstrate a critical role of multiple plasmid replicons in the dissemination of bla [sub.NDM-5] and carbapenem resistance.
doi_str_mv	10.3390/pathogens13050387
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Plasmid analysis indicated that IncX3, IncHI2, and IncR-X1-X3 hybrid plasmids were responsible for the rapid transmission of the bla [sub.NDM-5] gene, and the genetic surrounding of bla [sub.NDM-5] contained a common mobile element of the genetic fragment designated “IS5-△ISAba125-bla [sub.NDM-5]-ble [sub.MBL]-trpF-dsbC”. 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However, the epidemiological characteristics of CREC isolates in yellow-feather broiler farms remain unclear. We comprehensively investigated the genetic features of carbapenem-resistance genes among E. coli isolates recovered from a yellow-feather broiler farm in Guangdong province, China. Among the 172 isolates, 88 (51.2%) were recovered from chicken feces (88.5%, 54/61), the farm environment (51.1%, 24/47), and specimens of dead chickens (15.6%, 41/64). All CREC isolates were positive for the bla [sub.NDM-5] gene and negative for other carbapenem-resistance genes. Among 40 randomly selected isolates subjected to whole-genome sequencing, 10 belonged to distinct sequence types (STs), with ST167 (n = 12) being the most prevalent across different sources, suggesting that the dissemination of bla [sub.NDM-5] was mainly due to horizontal and clonal transmission. Plasmid analysis indicated that IncX3, IncHI2, and IncR-X1-X3 hybrid plasmids were responsible for the rapid transmission of the bla [sub.NDM-5] gene, and the genetic surrounding of bla [sub.NDM-5] contained a common mobile element of the genetic fragment designated “IS5-△ISAba125-bla [sub.NDM-5]-ble [sub.MBL]-trpF-dsbC”. 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However, the epidemiological characteristics of CREC isolates in yellow-feather broiler farms remain unclear. We comprehensively investigated the genetic features of carbapenem-resistance genes among E. coli isolates recovered from a yellow-feather broiler farm in Guangdong province, China. Among the 172 isolates, 88 (51.2%) were recovered from chicken feces (88.5%, 54/61), the farm environment (51.1%, 24/47), and specimens of dead chickens (15.6%, 41/64). All CREC isolates were positive for the bla [sub.NDM-5] gene and negative for other carbapenem-resistance genes. Among 40 randomly selected isolates subjected to whole-genome sequencing, 10 belonged to distinct sequence types (STs), with ST167 (n = 12) being the most prevalent across different sources, suggesting that the dissemination of bla [sub.NDM-5] was mainly due to horizontal and clonal transmission. Plasmid analysis indicated that IncX3, IncHI2, and IncR-X1-X3 hybrid plasmids were responsible for the rapid transmission of the bla [sub.NDM-5] gene, and the genetic surrounding of bla [sub.NDM-5] contained a common mobile element of the genetic fragment designated “IS5-△ISAba125-bla [sub.NDM-5]-ble [sub.MBL]-trpF-dsbC”. These findings demonstrate a critical role of multiple plasmid replicons in the dissemination of bla [sub.NDM-5] and carbapenem resistance.</abstract><pub>MDPI AG</pub><doi>10.3390/pathogens13050387</doi></addata></record>
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subjects	Broilers (Poultry) Distribution Drug resistance in microorganisms Escherichia coli Farms Genes Genetic aspects Health aspects Identification and classification Imipenem Oxytetracycline Risk factors
title	Rapid Dissemination of Ibla/I[sub.NDM-5] Gene among Carbapenem-Resistant IEscherichia coli/I Isolates in a Yellow-Feather Broiler Farm via Multiple Plasmid Replicon
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