Naturally-occurring polymorphisms in QcrB are responsible for resistance to Telacebec in Mycobacterium abscessus
Mycobacterium abscessus (M. abscessus) is a rapidly growing nontuberculous mycobacteria that is quickly emerging as a global health concern. M. abscessus pulmonary infections are frequently intractable due to the high intrinsic resistance to most antibiotics. Therefore, there is an urgent need to di...
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sg-ntu-dr.10356-1506112023-02-28T17:08:24Z Naturally-occurring polymorphisms in QcrB are responsible for resistance to Telacebec in Mycobacterium abscessus Sorayah, Ria Manimekalai, Malathy Sony Subramanian Shin, Sung Jae Koh, Won-Jung Grüber, Gerhard Pethe, Kevin Interdisciplinary Graduate School (IGS) School of Biological Sciences Lee Kong Chian School of Medicine (LKCMedicine) NTU Institute for Health Technologies Science::Medicine Telacebec Cytochrome bc1:aa3 Mycobacterium abscessus (M. abscessus) is a rapidly growing nontuberculous mycobacteria that is quickly emerging as a global health concern. M. abscessus pulmonary infections are frequently intractable due to the high intrinsic resistance to most antibiotics. Therefore, there is an urgent need to discover effective pharmacological options for M. abscessus infections. In this study, the potency of the antituberculosis drug Telacebec (Q203) was evaluated against M. abscessus. Q203 is a clinical-stage drug candidate targeting the subunit QcrB of the cytochrome bc1:aa3 terminal oxidase. We demonstrated that the presence of four naturally-occurring polymorphisms in the M. abscessus QcrB is responsible for the high resistance of the bacterium to Q203. Genetics reversion of the four polymorphisms sensitized M. abscessus to Q203. While this study highlights the limitation of a direct drug repurposing approach of Q203 and related drugs for M. abscessus infections, it reveals that the M. abscessus cytochrome bc1:aa3 respiratory branch is sensitive to chemical inhibition. Nanyang Technological University Accepted version This research is supported by the Lee Kong Chian School of Medicine, Nanyang Technological University Start-Up Grant (awarded to K.P.). R.S. is supported by a scholarship from NTU Institute for Health Technologies (HealthTech NTU), Interdisciplinary Graduate Programme, Nanyang Technological University. 2021-05-27T02:38:01Z 2021-05-27T02:38:01Z 2019 Journal Article Sorayah, R., Manimekalai, M. S. S., Shin, S. J., Koh, W., Grüber, G. & Pethe, K. (2019). Naturally-occurring polymorphisms in QcrB are responsible for resistance to Telacebec in Mycobacterium abscessus. ACS Infectious Diseases, 5(12), 2055-2060. https://dx.doi.org/10.1021/acsinfecdis.9b00322 2373-8227 0000-0003-0916-8873 https://hdl.handle.net/10356/150611 10.1021/acsinfecdis.9b00322 31599569 2-s2.0-85073875711 12 5 2055 2060 en ACS Infectious Diseases This document is the Accepted Manuscript version of a Published Work that appeared in final form in ACS Infectious Diseases, copyright © American Chemical Society after peer review and technical editing by the publisher. To access the final edited and published work see https://doi.org/10.1021/acsinfecdis.9b00322 application/pdf |
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Science::Medicine Telacebec Cytochrome bc1:aa3 Sorayah, Ria Manimekalai, Malathy Sony Subramanian Shin, Sung Jae Koh, Won-Jung Grüber, Gerhard Pethe, Kevin Naturally-occurring polymorphisms in QcrB are responsible for resistance to Telacebec in Mycobacterium abscessus |
| description |
Mycobacterium abscessus (M. abscessus) is a rapidly growing nontuberculous mycobacteria that is quickly emerging as a global health concern. M. abscessus pulmonary infections are frequently intractable due to the high intrinsic resistance to most antibiotics. Therefore, there is an urgent need to discover effective pharmacological options for M. abscessus infections. In this study, the potency of the antituberculosis drug Telacebec (Q203) was evaluated against M. abscessus. Q203 is a clinical-stage drug candidate targeting the subunit QcrB of the cytochrome bc1:aa3 terminal oxidase. We demonstrated that the presence of four naturally-occurring polymorphisms in the M. abscessus QcrB is responsible for the high resistance of the bacterium to Q203. Genetics reversion of the four polymorphisms sensitized M. abscessus to Q203. While this study highlights the limitation of a direct drug repurposing approach of Q203 and related drugs for M. abscessus infections, it reveals that the M. abscessus cytochrome bc1:aa3 respiratory branch is sensitive to chemical inhibition. |
| author2 |
Interdisciplinary Graduate School (IGS) |
| author_facet |
Interdisciplinary Graduate School (IGS) Sorayah, Ria Manimekalai, Malathy Sony Subramanian Shin, Sung Jae Koh, Won-Jung Grüber, Gerhard Pethe, Kevin |
| format |
Article |
| author |
Sorayah, Ria Manimekalai, Malathy Sony Subramanian Shin, Sung Jae Koh, Won-Jung Grüber, Gerhard Pethe, Kevin |
| author_sort |
Sorayah, Ria |
| title |
Naturally-occurring polymorphisms in QcrB are responsible for resistance to Telacebec in Mycobacterium abscessus |
| title_short |
Naturally-occurring polymorphisms in QcrB are responsible for resistance to Telacebec in Mycobacterium abscessus |
| title_full |
Naturally-occurring polymorphisms in QcrB are responsible for resistance to Telacebec in Mycobacterium abscessus |
| title_fullStr |
Naturally-occurring polymorphisms in QcrB are responsible for resistance to Telacebec in Mycobacterium abscessus |
| title_full_unstemmed |
Naturally-occurring polymorphisms in QcrB are responsible for resistance to Telacebec in Mycobacterium abscessus |
| title_sort |
naturally-occurring polymorphisms in qcrb are responsible for resistance to telacebec in mycobacterium abscessus |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/150611 |
| _version_ |
1759854365442572288 |