Emergence of Plasmid-Borne dfrA14 Trimethoprim Resistance Gene in Shigella sonnei

The most common mechanism of trimethoprim (TMP)-resistance is the acquisition of dihydrofolate reductase enzyme resistant to this drug. Previous molecular characterization of TMP-genes resistance in Chilean isolates of Shigella sonnei searching for dfrA1 and dfrA8, showed solely the presence of dfrA...

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Autores principales: Miranda, Alfonso, Ávila, Bárbara, Díaz, Patricia, Rivas, Lina, Bravo, Karen, Astudillo, Javier, Bueno, Constanza, Ulloa, María T., Hermosilla, Germán, Del Canto, Felipe, Salazar, Juan C., Toro, Cecilia S.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2016
Materias:
Microbiology
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4951496/
https://www.ncbi.nlm.nih.gov/pubmed/27489797
http://dx.doi.org/10.3389/fcimb.2016.00077
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author Miranda, Alfonso
Ávila, Bárbara
Díaz, Patricia
Rivas, Lina
Bravo, Karen
Astudillo, Javier
Bueno, Constanza
Ulloa, María T.
Hermosilla, Germán
Del Canto, Felipe
Salazar, Juan C.
Toro, Cecilia S.
author_facet Miranda, Alfonso
Ávila, Bárbara
Díaz, Patricia
Rivas, Lina
Bravo, Karen
Astudillo, Javier
Bueno, Constanza
Ulloa, María T.
Hermosilla, Germán
Del Canto, Felipe
Salazar, Juan C.
Toro, Cecilia S.
author_sort Miranda, Alfonso
collection PubMed
description The most common mechanism of trimethoprim (TMP)-resistance is the acquisition of dihydrofolate reductase enzyme resistant to this drug. Previous molecular characterization of TMP-genes resistance in Chilean isolates of Shigella sonnei searching for dfrA1 and dfrA8, showed solely the presence of dfrA8 (formerly dhfrIIIc). However, these genetic markers were absent in S. sonnei strains further isolated during an outbreak in 2009. To identify the TMP-resistance gene in these strains, a genomic DNA library from a TMP-resistant (TMP(R)) S. sonnei representative strain for the outbreak was used to clone, select and identify a TMP-resistance marker. The TMP(R) clone was sequenced by primer walking, identifying the presence of the dfrA14 gene in the sul2-strA'-dfrA14-‘strA-strB gene arrangement, harbored in a native 6779-bp plasmid. The same plasmid was isolated by transforming with a ~4.2 MDa plasmid extracted from several TMP(R) S. sonnei strains into Escherichia coli. This plasmid, named pABC-3, was present only in dfrA14-positive strains and was homologous to a previously described pCERC-1, but different due to the absence of an 11-bp repetitive unit. The distribution of dfrA1, dfrA8, and dfrA14 TMP-resistance genes was determined in 126 TMP(R) S. sonnei isolates. Most of the strains (96%) carried only one of the three TMP-resistance genes assessed. Thus, all strains obtained during the 2009-outbreak harbored only dfrA14, whereas, dfrA8 was the most abundant gene marker before outbreak and, after the outbreak dfrA1 seems have appeared in circulating strains. According to PFGE, dfrA14-positive strains were clustered in a genetically related group including some dfrA1- and dfrA8-positive strains; meanwhile other genetic group included most of the dfrA8-positive strains. This distribution also correlated with the isolation period, showing a dynamics of trimethoprim genetic markers prevalent in Chilean S. sonnei strains. To our knowledge, dfrA14 gene associated to a small non-conjugative plasmid was detected for the first time in Shigella. Apparently, the strain causing the outbreak must have been introduced, changing drastically the genetic distribution of trimethoprim resistance in Chilean S. sonnei strains.
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spelling pubmed-49514962016-08-03 Emergence of Plasmid-Borne dfrA14 Trimethoprim Resistance Gene in Shigella sonnei Miranda, Alfonso Ávila, Bárbara Díaz, Patricia Rivas, Lina Bravo, Karen Astudillo, Javier Bueno, Constanza Ulloa, María T. Hermosilla, Germán Del Canto, Felipe Salazar, Juan C. Toro, Cecilia S. Front Cell Infect Microbiol Microbiology The most common mechanism of trimethoprim (TMP)-resistance is the acquisition of dihydrofolate reductase enzyme resistant to this drug. Previous molecular characterization of TMP-genes resistance in Chilean isolates of Shigella sonnei searching for dfrA1 and dfrA8, showed solely the presence of dfrA8 (formerly dhfrIIIc). However, these genetic markers were absent in S. sonnei strains further isolated during an outbreak in 2009. To identify the TMP-resistance gene in these strains, a genomic DNA library from a TMP-resistant (TMP(R)) S. sonnei representative strain for the outbreak was used to clone, select and identify a TMP-resistance marker. The TMP(R) clone was sequenced by primer walking, identifying the presence of the dfrA14 gene in the sul2-strA'-dfrA14-‘strA-strB gene arrangement, harbored in a native 6779-bp plasmid. The same plasmid was isolated by transforming with a ~4.2 MDa plasmid extracted from several TMP(R) S. sonnei strains into Escherichia coli. This plasmid, named pABC-3, was present only in dfrA14-positive strains and was homologous to a previously described pCERC-1, but different due to the absence of an 11-bp repetitive unit. The distribution of dfrA1, dfrA8, and dfrA14 TMP-resistance genes was determined in 126 TMP(R) S. sonnei isolates. Most of the strains (96%) carried only one of the three TMP-resistance genes assessed. Thus, all strains obtained during the 2009-outbreak harbored only dfrA14, whereas, dfrA8 was the most abundant gene marker before outbreak and, after the outbreak dfrA1 seems have appeared in circulating strains. According to PFGE, dfrA14-positive strains were clustered in a genetically related group including some dfrA1- and dfrA8-positive strains; meanwhile other genetic group included most of the dfrA8-positive strains. This distribution also correlated with the isolation period, showing a dynamics of trimethoprim genetic markers prevalent in Chilean S. sonnei strains. To our knowledge, dfrA14 gene associated to a small non-conjugative plasmid was detected for the first time in Shigella. Apparently, the strain causing the outbreak must have been introduced, changing drastically the genetic distribution of trimethoprim resistance in Chilean S. sonnei strains. Frontiers Media S.A. 2016-07-20 /pmc/articles/PMC4951496/ /pubmed/27489797 http://dx.doi.org/10.3389/fcimb.2016.00077 Text en Copyright © 2016 Miranda, Ávila, Díaz, Rivas, Bravo, Astudillo, Bueno, Ulloa, Hermosilla, Del Canto, Salazar and Toro. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) or licensor are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Microbiology
Miranda, Alfonso
Ávila, Bárbara
Díaz, Patricia
Rivas, Lina
Bravo, Karen
Astudillo, Javier
Bueno, Constanza
Ulloa, María T.
Hermosilla, Germán
Del Canto, Felipe
Salazar, Juan C.
Toro, Cecilia S.
Emergence of Plasmid-Borne dfrA14 Trimethoprim Resistance Gene in Shigella sonnei
title Emergence of Plasmid-Borne dfrA14 Trimethoprim Resistance Gene in Shigella sonnei
title_full Emergence of Plasmid-Borne dfrA14 Trimethoprim Resistance Gene in Shigella sonnei
title_fullStr Emergence of Plasmid-Borne dfrA14 Trimethoprim Resistance Gene in Shigella sonnei
title_full_unstemmed Emergence of Plasmid-Borne dfrA14 Trimethoprim Resistance Gene in Shigella sonnei
title_short Emergence of Plasmid-Borne dfrA14 Trimethoprim Resistance Gene in Shigella sonnei
title_sort emergence of plasmid-borne dfra14 trimethoprim resistance gene in shigella sonnei
topic Microbiology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4951496/
https://www.ncbi.nlm.nih.gov/pubmed/27489797
http://dx.doi.org/10.3389/fcimb.2016.00077
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