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Discovery of a Novel Mycobacterial F-ATP Synthase Inhibitor and its Potency in Combination with Diarylquinolines |
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| Authors: | Adam Hotra Priya Ragunathan Pearly Shuyi Ng Pattarakiat Seankongsuk Amaravadhi Harikishore Jickky Palmae Sarathy Wuan-Geok Saw Umayal Lakshmanan Patcharaporn Sae-Lao Nitin Pal Kalia Joon Shin Revathy Kalyanasundaram Sivaraj Anbarasu Krupakar Parthasarathy Chaudhari Namrata Pradeep Harshyaa Makhija Peter Dröge Anders Poulsen Jocelyn Hui Ling Tan Kevin Pethe Thomas Dick Roderick W. Bates Gerhard Grüber |
| Affiliation: | 1. School of Physical and Mathematical Sciences, Nanyang Technological University, 21 Nanyang Link, Singapore, 637371 Republic of Singapore;2. School of Biological Sciences, Nanyang Technological University, 60 Nanyang Drive, Singapore, 637551 Republic of Singapore;3. Experimental Drug Development Centre, Agency for Science Technology and Research, A*STAR, 10 Biopolis Road, Singapore, 138670 Republic of Singapore;4. Department of Microbiology and Immunology, Yong Loo Lin School of Medicine, National University of Singapore, 14 Medical Drive, Singapore, 117599 Republic of Singapore;5. Lee Kong Chian School of Medicine, Nanyang Technological University, Experimental Medicine Building, Republic of Singapore;6. Centre for Drug Discovery and Development, Sathyabama Institute of Science and Technology, Chennai, 600119 India |
| Abstract: | The F1FO-ATP synthase is required for growth and viability of Mycobacterium tuberculosis and is a validated clinical target. A mycobacterium-specific loop of the enzyme's rotary γ subunit plays a role in the coupling of ATP synthesis within the enzyme complex. We report the discovery of a novel antimycobacterial, termed GaMF1, that targets this γ subunit loop. Biochemical and NMR studies show that GaMF1 inhibits ATP synthase activity by binding to the loop. GaMF1 is bactericidal and is active against multidrug- as well as bedaquiline-resistant strains. Chemistry efforts on the scaffold revealed a dynamic structure activity relationship and delivered analogues with nanomolar potencies. Combining GaMF1 with bedaquiline or novel diarylquinoline analogues showed potentiation without inducing genotoxicity or phenotypic changes in a human embryonic stem cell reporter assay. These results suggest that GaMF1 presents an attractive lead for the discovery of a novel class of anti-tuberculosis F-ATP synthase inhibitors. |
| Keywords: | ATP synthesis drug discovery inhibitors F-ATP synthase tuberculosis |