Central Research Facility, National Institute of Technology Karnataka, Surathkal, Mangalore 575 025, India; Department of Chemical Sciences, National Institute of Pharmaceutical Education and Research (NIPER), Hyderabad 500 037, India.
Infectious Diseases Division, CSIR- Indian Institute of Integrative Medicine, Jammu 180 001, India; Academy of Scientific and Innovative Research (AcSIR), Ghaziabad 201 002, India.
Bioorg Chem. 2024 Oct;151:107702. doi: 10.1016/j.bioorg.2024.107702. Epub 2024 Aug 7.
The mycobacterial F-ATP synthase is responsible for the optimal growth, metabolism and viability of Mycobacteria, establishing it as a validated target for the development of anti-TB therapeutics. Herein, we report the discovery of an N-acyl phenothiazine derivative, termed PT6, targeting the mycobacterial F-ATP synthase. PT6 is bactericidal and active against the drug sensitive, Rifampicin-resistant as well as Multidrug-resistant tuberculosis strains. Compound PT6 showed noteworthy inhibition of F-ATP synthesis, exhibiting an IC of 0.788 µM in M. smegmatis IMVs and was observed that it could deplete intracellular ATP levels, exhibiting an IC of 30 µM. PT6 displayed a high selectivity towards mycobacterial ATP synthase compared to mitochondrial ATP synthase. Compound PT6 showed a minor synergistic effect in combination with Rifampicin and Isoniazid. PT6 demonstrated null cytotoxicity as confirmed by assessing its toxicity against VERO cell lines. Further, the binding mechanism and the activity profile of PT6 were validated by employing in silico techniques such as molecular docking, Prime MM/GBSA, DFT and ADMET analysis. These results suggest that PT6 presents an attractive lead for the discovery of a novel class of mycobacterial F-ATP synthase inhibitors.
分枝杆菌 F-ATP 合酶负责分枝杆菌的最佳生长、代谢和存活,使其成为开发抗结核治疗药物的有效靶点。在此,我们报告了一种 N-酰基吩噻嗪衍生物(称为 PT6)的发现,该衍生物靶向分枝杆菌 F-ATP 合酶。PT6 具有杀菌作用,对敏感药物、利福平耐药以及耐多药结核菌株均有效。化合物 PT6 对 F-ATP 合成表现出显著的抑制作用,在 M. smegmatis IMVs 中的 IC 为 0.788 µM,并且可以耗尽细胞内 ATP 水平,IC 为 30 µM。与线粒体 ATP 合酶相比,PT6 对分枝杆菌 ATP 合酶具有较高的选择性。与利福平异烟肼联合使用时,PT6 表现出较小的协同作用。通过评估其对 VERO 细胞系的毒性,PT6 被证实具有较小的细胞毒性。此外,通过分子对接、Prime MM/GBSA、DFT 和 ADMET 分析等计算技术验证了 PT6 的结合机制和活性特征。这些结果表明,PT6 为发现新型分枝杆菌 F-ATP 合酶抑制剂提供了有吸引力的先导化合物。
