Mutational analysis of mycobacterial F‑ATP synthase subunit δ leads to a potent δ enzyme inhibitor
While many bacteria are able to bypass the requirement for oxidative phosphorylation when grown on carbohydrates, Mycobacterium tuberculosis is unable to do so. Differences of amino acid composition and structural features of the mycobacterial F-ATP synthase (α3:β3:γ:δ:ε:a:b:b′:c9) compared to its p...
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sg-ntu-dr.10356-1557592023-02-28T17:09:21Z Mutational analysis of mycobacterial F‑ATP synthase subunit δ leads to a potent δ enzyme inhibitor Harikishore, Amaravadhi Saw, Wuan-Geok Ragunathan, Priya Litty, Dennnis Dick, Thomas Müller, Volker Grüber, Gerhard School of Biological Sciences Science::Biological sciences::Biochemistry Tuberculosis Mycobacteria While many bacteria are able to bypass the requirement for oxidative phosphorylation when grown on carbohydrates, Mycobacterium tuberculosis is unable to do so. Differences of amino acid composition and structural features of the mycobacterial F-ATP synthase (α3:β3:γ:δ:ε:a:b:b′:c9) compared to its prokaryotic or human counterparts were recently elucidated and paved avenues for the discovery of molecules interfering with various regulative mechanisms of this essential energy converter. In this context, the mycobacterial peripheral stalk subunit δ came into focus, which displays a unique N-terminal 111-amino acid extension. Here, mutants of recombinant mycobacterial subunit δ were characterized, revealing significant reduction in ATP synthesis and demonstrating essentiality of this subunit for effective catalysis. These results provided the basis for the generation of a four-feature model forming a δ receptor-based pharmacophore and to identify a potent subunit δ inhibitor DeMF1 via in silico screening. The successful targeting of the δ subunit demonstrates the potential to advance δ’s flexible coupling as a new area for the development of F-ATP synthase inhibitors. National Research Foundation (NRF) Submitted/Accepted version This research was supported by the National Research Foundation (NRF) Singapore, NRF Competitive Research Programme (CRP), Grant Award Number NRF-CRP18-2017- 01), and the Deutsche Forschungsgemeinschaft via SFB807. 2022-03-17T07:04:58Z 2022-03-17T07:04:58Z 2022 Journal Article Harikishore, A., Saw, W., Ragunathan, P., Litty, D., Dick, T., Müller, V. & Grüber, G. (2022). Mutational analysis of mycobacterial F‑ATP synthase subunit δ leads to a potent δ enzyme inhibitor. ACS Chemical Biology. https://dx.doi.org/10.1021/acschembio.1c00766 1554-8929 https://hdl.handle.net/10356/155759 10.1021/acschembio.1c00766 en NRF-CRP18-2017- 01 ACS Chemical Biology This document is the Accepted Manuscript version of a Published Work that appeared in final form in ACS Chemical Biology, 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/acschembio.1c00766. application/pdf |
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Science::Biological sciences::Biochemistry Tuberculosis Mycobacteria Harikishore, Amaravadhi Saw, Wuan-Geok Ragunathan, Priya Litty, Dennnis Dick, Thomas Müller, Volker Grüber, Gerhard Mutational analysis of mycobacterial F‑ATP synthase subunit δ leads to a potent δ enzyme inhibitor |
| description |
While many bacteria are able to bypass the requirement for oxidative phosphorylation when grown on carbohydrates, Mycobacterium tuberculosis is unable to do so. Differences of amino acid composition and structural features of the mycobacterial F-ATP synthase (α3:β3:γ:δ:ε:a:b:b′:c9) compared to its prokaryotic or human counterparts were recently elucidated and paved avenues for the discovery of molecules interfering with various regulative mechanisms of this essential energy converter. In this context, the mycobacterial peripheral stalk subunit δ came into focus, which displays a unique N-terminal 111-amino acid extension. Here, mutants of recombinant mycobacterial subunit δ were characterized, revealing significant reduction in ATP synthesis and demonstrating essentiality of this subunit for effective catalysis. These results provided the basis for the generation of a four-feature model forming a δ receptor-based pharmacophore and to identify a potent subunit δ inhibitor DeMF1 via in silico screening. The successful targeting of the δ subunit demonstrates the potential to advance δ’s flexible coupling as a new area for the development of F-ATP synthase inhibitors. |
| author2 |
School of Biological Sciences |
| author_facet |
School of Biological Sciences Harikishore, Amaravadhi Saw, Wuan-Geok Ragunathan, Priya Litty, Dennnis Dick, Thomas Müller, Volker Grüber, Gerhard |
| format |
Article |
| author |
Harikishore, Amaravadhi Saw, Wuan-Geok Ragunathan, Priya Litty, Dennnis Dick, Thomas Müller, Volker Grüber, Gerhard |
| author_sort |
Harikishore, Amaravadhi |
| title |
Mutational analysis of mycobacterial F‑ATP synthase subunit δ leads to a potent δ enzyme inhibitor |
| title_short |
Mutational analysis of mycobacterial F‑ATP synthase subunit δ leads to a potent δ enzyme inhibitor |
| title_full |
Mutational analysis of mycobacterial F‑ATP synthase subunit δ leads to a potent δ enzyme inhibitor |
| title_fullStr |
Mutational analysis of mycobacterial F‑ATP synthase subunit δ leads to a potent δ enzyme inhibitor |
| title_full_unstemmed |
Mutational analysis of mycobacterial F‑ATP synthase subunit δ leads to a potent δ enzyme inhibitor |
| title_sort |
mutational analysis of mycobacterial f‑atp synthase subunit δ leads to a potent δ enzyme inhibitor |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/155759 |
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1759857519203713024 |