Geographic differences in the contribution of ubiA mutations to high-level ethambutol resistance in Mycobacterium tuberculosis

Subramanya Lingaraju; Leen Rigouts; Aditi Gupta; Jongseok Lee; Alaine Nyaruhirira Umubyeyi; Amy L. Davidow; Susan German; Eun Jin Cho; Ji Im Lee; Sang Nae Cho; Cheon Tae Kim; David Alland; Hassan Safi

doi:10.1128/AAC.03002-15

Geographic differences in the contribution of ubiA mutations to high-level ethambutol resistance in Mycobacterium tuberculosis

Subramanya Lingaraju, Leen Rigouts, Aditi Gupta, Jongseok Lee, Alaine Nyaruhirira Umubyeyi, Amy L. Davidow, Susan German, Eun Jin Cho, Ji Im Lee, Sang Nae Cho, Cheon Tae Kim, David Alland, Hassan Safi

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27 Scopus citations

Abstract

Ethambutol (EMB) resistance can evolve through a multistep process, and mutations in the ubiA (Rv3806c) gene appear to be responsible for high-level EMB resistance in Mycobacterium tuberculosis. We evaluated the prevalence of ubiA and embB (Rv3795) mutations in EMB-resistant strains originating from Africa and South Korea. No differences in embB mutation frequencies were observed between strains from both origins. However, ubiA mutations were present in 45.5% ± 6.5% of the African EMB-resistant isolates but in only 9.5% ± 1.5% of the South Korean EMB-resistant isolates. The ubiA mutations associated with EMB resistance were localized to regions encoding the transmembrane domains of the protein, whereas the embB mutations were localized to regions encoding the extramembrane domains. Larger studies are needed to investigate the causes of increased ubiA mutations as a pathway to high-level EMB resistance in African countries, such as extended EMB usage during tuberculosis treatment.

Original language	English (US)
Pages (from-to)	4101-4105
Number of pages	5
Journal	Antimicrobial agents and chemotherapy
Volume	60
Issue number	7
DOIs	https://doi.org/10.1128/AAC.03002-15
State	Published - Jul 2016

All Science Journal Classification (ASJC) codes

Pharmacology
Pharmacology (medical)
Infectious Diseases

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Lingaraju, S., Rigouts, L., Gupta, A., Lee, J., Umubyeyi, A. N., Davidow, A. L., German, S., Cho, E. J., Lee, J. I., Cho, S. N., Kim, C. T., Alland, D., & Safi, H. (2016). Geographic differences in the contribution of ubiA mutations to high-level ethambutol resistance in Mycobacterium tuberculosis. Antimicrobial agents and chemotherapy, 60(7), 4101-4105. https://doi.org/10.1128/AAC.03002-15

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title = "Geographic differences in the contribution of ubiA mutations to high-level ethambutol resistance in Mycobacterium tuberculosis",

abstract = "Ethambutol (EMB) resistance can evolve through a multistep process, and mutations in the ubiA (Rv3806c) gene appear to be responsible for high-level EMB resistance in Mycobacterium tuberculosis. We evaluated the prevalence of ubiA and embB (Rv3795) mutations in EMB-resistant strains originating from Africa and South Korea. No differences in embB mutation frequencies were observed between strains from both origins. However, ubiA mutations were present in 45.5% ± 6.5% of the African EMB-resistant isolates but in only 9.5% ± 1.5% of the South Korean EMB-resistant isolates. The ubiA mutations associated with EMB resistance were localized to regions encoding the transmembrane domains of the protein, whereas the embB mutations were localized to regions encoding the extramembrane domains. Larger studies are needed to investigate the causes of increased ubiA mutations as a pathway to high-level EMB resistance in African countries, such as extended EMB usage during tuberculosis treatment.",

author = "Subramanya Lingaraju and Leen Rigouts and Aditi Gupta and Jongseok Lee and Umubyeyi, {Alaine Nyaruhirira} and Davidow, {Amy L.} and Susan German and Cho, {Eun Jin} and Lee, {Ji Im} and Cho, {Sang Nae} and Kim, {Cheon Tae} and David Alland and Hassan Safi",

year = "2016",

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doi = "10.1128/AAC.03002-15",

language = "English (US)",

volume = "60",

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publisher = "American Society for Microbiology",

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Lingaraju, S, Rigouts, L, Gupta, A, Lee, J, Umubyeyi, AN, Davidow, AL, German, S, Cho, EJ, Lee, JI, Cho, SN, Kim, CT, Alland, D & Safi, H 2016, 'Geographic differences in the contribution of ubiA mutations to high-level ethambutol resistance in Mycobacterium tuberculosis', Antimicrobial agents and chemotherapy, vol. 60, no. 7, pp. 4101-4105. https://doi.org/10.1128/AAC.03002-15

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AU - Lingaraju, Subramanya

AU - Rigouts, Leen

AU - Gupta, Aditi

AU - Lee, Jongseok

AU - Umubyeyi, Alaine Nyaruhirira

AU - Davidow, Amy L.

AU - German, Susan

AU - Cho, Eun Jin

AU - Lee, Ji Im

AU - Cho, Sang Nae

AU - Kim, Cheon Tae

AU - Alland, David

AU - Safi, Hassan

PY - 2016/7

Y1 - 2016/7

N2 - Ethambutol (EMB) resistance can evolve through a multistep process, and mutations in the ubiA (Rv3806c) gene appear to be responsible for high-level EMB resistance in Mycobacterium tuberculosis. We evaluated the prevalence of ubiA and embB (Rv3795) mutations in EMB-resistant strains originating from Africa and South Korea. No differences in embB mutation frequencies were observed between strains from both origins. However, ubiA mutations were present in 45.5% ± 6.5% of the African EMB-resistant isolates but in only 9.5% ± 1.5% of the South Korean EMB-resistant isolates. The ubiA mutations associated with EMB resistance were localized to regions encoding the transmembrane domains of the protein, whereas the embB mutations were localized to regions encoding the extramembrane domains. Larger studies are needed to investigate the causes of increased ubiA mutations as a pathway to high-level EMB resistance in African countries, such as extended EMB usage during tuberculosis treatment.

AB - Ethambutol (EMB) resistance can evolve through a multistep process, and mutations in the ubiA (Rv3806c) gene appear to be responsible for high-level EMB resistance in Mycobacterium tuberculosis. We evaluated the prevalence of ubiA and embB (Rv3795) mutations in EMB-resistant strains originating from Africa and South Korea. No differences in embB mutation frequencies were observed between strains from both origins. However, ubiA mutations were present in 45.5% ± 6.5% of the African EMB-resistant isolates but in only 9.5% ± 1.5% of the South Korean EMB-resistant isolates. The ubiA mutations associated with EMB resistance were localized to regions encoding the transmembrane domains of the protein, whereas the embB mutations were localized to regions encoding the extramembrane domains. Larger studies are needed to investigate the causes of increased ubiA mutations as a pathway to high-level EMB resistance in African countries, such as extended EMB usage during tuberculosis treatment.

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Geographic differences in the contribution of ubiA mutations to high-level ethambutol resistance in Mycobacterium tuberculosis

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