Genetic analysis of Helicobacter pylori clinical isolates suggests resistance to metronidazole can occur without the loss of functional rdxA

So Yeong Kim; Young Min Joo; Hak Sung Lee; In Sik Chung; Yun Jung Yoo; D. Scott Merrell; Jeong Heon Cha

doi:10.1038/ja.2008.6

Genetic analysis of Helicobacter pylori clinical isolates suggests resistance to metronidazole can occur without the loss of functional rdxA

So Yeong Kim, Young Min Joo, Hak Sung Lee, In Sik Chung, Yun Jung Yoo, D. Scott Merrell, Jeong Heon Cha

Department of Oral Biology

Research output: Contribution to journal › Article › peer-review

23 Citations (Scopus)

Abstract

Resistance to metronidazole (MTZ) in Helicobacter pylori is associated with mutations in rdxA, encoding an oxygen-insensitive NADPH nitroreductase, and mutations in frxA, encoding a NAD(P)H-flavin oxidoreductase. Despite this association, the strict correlation of MTZ resistance with mutations in rdxA or frxA is still controversial. In this study, rdxA allelic replacement was used to distinguish resistance-associated nucleotide mutations from the natural genetic diversity of H. pylori. Replacement with truncated rdxA resulted in MTZ resistance, whereas replacement with missense-mutated rdxA from resistant clinical isolates failed to yield MTZ resistance. Thus, although truncation of rdxA confers MTZ resistance in G27 H. pylori, MTZ resistance found in other clinical isolates is not due to the identified amino-acid substitutions. Three of our MTZ-resistant clinical isolates expressed functional rdxA and two of these also encoded full-length frxA. Therefore, MTZ resistance can arise in H. pylori possessing functional rdxA, suggesting that other factors are involved in MTZ resistance.

Original language	English
Pages (from-to)	43-50
Number of pages	8
Journal	Journal of Antibiotics
Volume	62
Issue number	1
DOIs	https://doi.org/10.1038/ja.2008.6
Publication status	Published - 2009 Jan

Bibliographical note

Funding Information:
We thank Joong-Chul Lee for the gift of plasmid pILL600, Doug Berg for helpful suggestions and H Gancz and B Carpenter for a critical reading of the paper. This study was supported by the Korea Research Foundation Grant, which was funded by the Korean Government (MOEHRD) (KRF-2006-311-E00083).

All Science Journal Classification (ASJC) codes

Pharmacology
Drug Discovery

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10.1038/ja.2008.6

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title = "Genetic analysis of Helicobacter pylori clinical isolates suggests resistance to metronidazole can occur without the loss of functional rdxA",

abstract = "Resistance to metronidazole (MTZ) in Helicobacter pylori is associated with mutations in rdxA, encoding an oxygen-insensitive NADPH nitroreductase, and mutations in frxA, encoding a NAD(P)H-flavin oxidoreductase. Despite this association, the strict correlation of MTZ resistance with mutations in rdxA or frxA is still controversial. In this study, rdxA allelic replacement was used to distinguish resistance-associated nucleotide mutations from the natural genetic diversity of H. pylori. Replacement with truncated rdxA resulted in MTZ resistance, whereas replacement with missense-mutated rdxA from resistant clinical isolates failed to yield MTZ resistance. Thus, although truncation of rdxA confers MTZ resistance in G27 H. pylori, MTZ resistance found in other clinical isolates is not due to the identified amino-acid substitutions. Three of our MTZ-resistant clinical isolates expressed functional rdxA and two of these also encoded full-length frxA. Therefore, MTZ resistance can arise in H. pylori possessing functional rdxA, suggesting that other factors are involved in MTZ resistance.",

author = "Kim, {So Yeong} and Joo, {Young Min} and Lee, {Hak Sung} and Chung, {In Sik} and Yoo, {Yun Jung} and Merrell, {D. Scott} and Cha, {Jeong Heon}",

note = "Funding Information: We thank Joong-Chul Lee for the gift of plasmid pILL600, Doug Berg for helpful suggestions and H Gancz and B Carpenter for a critical reading of the paper. This study was supported by the Korea Research Foundation Grant, which was funded by the Korean Government (MOEHRD) (KRF-2006-311-E00083).",

year = "2009",

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doi = "10.1038/ja.2008.6",

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AU - Kim, So Yeong

AU - Joo, Young Min

AU - Lee, Hak Sung

AU - Chung, In Sik

AU - Yoo, Yun Jung

AU - Merrell, D. Scott

AU - Cha, Jeong Heon

N1 - Funding Information: We thank Joong-Chul Lee for the gift of plasmid pILL600, Doug Berg for helpful suggestions and H Gancz and B Carpenter for a critical reading of the paper. This study was supported by the Korea Research Foundation Grant, which was funded by the Korean Government (MOEHRD) (KRF-2006-311-E00083).

PY - 2009/1

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N2 - Resistance to metronidazole (MTZ) in Helicobacter pylori is associated with mutations in rdxA, encoding an oxygen-insensitive NADPH nitroreductase, and mutations in frxA, encoding a NAD(P)H-flavin oxidoreductase. Despite this association, the strict correlation of MTZ resistance with mutations in rdxA or frxA is still controversial. In this study, rdxA allelic replacement was used to distinguish resistance-associated nucleotide mutations from the natural genetic diversity of H. pylori. Replacement with truncated rdxA resulted in MTZ resistance, whereas replacement with missense-mutated rdxA from resistant clinical isolates failed to yield MTZ resistance. Thus, although truncation of rdxA confers MTZ resistance in G27 H. pylori, MTZ resistance found in other clinical isolates is not due to the identified amino-acid substitutions. Three of our MTZ-resistant clinical isolates expressed functional rdxA and two of these also encoded full-length frxA. Therefore, MTZ resistance can arise in H. pylori possessing functional rdxA, suggesting that other factors are involved in MTZ resistance.

AB - Resistance to metronidazole (MTZ) in Helicobacter pylori is associated with mutations in rdxA, encoding an oxygen-insensitive NADPH nitroreductase, and mutations in frxA, encoding a NAD(P)H-flavin oxidoreductase. Despite this association, the strict correlation of MTZ resistance with mutations in rdxA or frxA is still controversial. In this study, rdxA allelic replacement was used to distinguish resistance-associated nucleotide mutations from the natural genetic diversity of H. pylori. Replacement with truncated rdxA resulted in MTZ resistance, whereas replacement with missense-mutated rdxA from resistant clinical isolates failed to yield MTZ resistance. Thus, although truncation of rdxA confers MTZ resistance in G27 H. pylori, MTZ resistance found in other clinical isolates is not due to the identified amino-acid substitutions. Three of our MTZ-resistant clinical isolates expressed functional rdxA and two of these also encoded full-length frxA. Therefore, MTZ resistance can arise in H. pylori possessing functional rdxA, suggesting that other factors are involved in MTZ resistance.

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Genetic analysis of Helicobacter pylori clinical isolates suggests resistance to metronidazole can occur without the loss of functional rdxA

Abstract

Bibliographical note

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