Structure-directed identification of pyridine-2-methylamine derivatives as MmpL3 inhibitors for use as antitubercular agents

Yu Wen; Shichun Lun; Yuxue Jiao; Wei Zhang; Ting Liu; Fan Yang; Jie Tang; William R. Bishai; Li Fang Yu

doi:10.1016/j.ejmech.2023.115351

Structure-directed identification of pyridine-2-methylamine derivatives as MmpL3 inhibitors for use as antitubercular agents

Yu Wen
, Shichun Lun
, Yuxue Jiao
, Wei Zhang
, Ting Liu
, Fan Yang^*
, Jie Tang
, William R. Bishai^*
, Li Fang Yu^*

^*此作品的通讯作者

化学与分子工程学院

East China Normal University
Johns Hopkins University

科研成果: 期刊稿件 › 文章 › 同行评审

11 引用（Scopus）

摘要

Mycobacterial membrane protein Large 3 (MmpL3), an inner membrane protein, plays a crucial role in the transport of mycolic acids that are essential for the viability of M. tuberculosis and has been a promising therapeutic target for new anti-TB agents. Herein, we report the discovery of pyridine-2-methylamine antitubercular compounds using a structure-based drug design strategy. Compound 62 stands out as the most potent compound with high activity against M. tb strain H37Rv (MIC = 0.016 μg/mL) as well as the clinically isolated strains of MDR/XDR-TB (MIC = 0.0039–0.0625 μg/mL), low Vero cell toxicity (IC₅₀ ≥ 16 μg/mL), and moderate liver microsomal stability (CL_int = 28 μL/min/mg). Furthermore, the resistant mutant of S288T due to single nucleotide polymorphism in mmpL3 was resistant to pyridine-2-methylamine 62, demonstrating compound 62 is likely target to MmpL3.

源语言	英语
文章编号	115351
期刊	European Journal of Medicinal Chemistry
卷	255
DOI	https://doi.org/10.1016/j.ejmech.2023.115351
出版状态	已出版 - 5 7月 2023

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title = "Structure-directed identification of pyridine-2-methylamine derivatives as MmpL3 inhibitors for use as antitubercular agents",

abstract = "Mycobacterial membrane protein Large 3 (MmpL3), an inner membrane protein, plays a crucial role in the transport of mycolic acids that are essential for the viability of M. tuberculosis and has been a promising therapeutic target for new anti-TB agents. Herein, we report the discovery of pyridine-2-methylamine antitubercular compounds using a structure-based drug design strategy. Compound 62 stands out as the most potent compound with high activity against M. tb strain H37Rv (MIC = 0.016 μg/mL) as well as the clinically isolated strains of MDR/XDR-TB (MIC = 0.0039–0.0625 μg/mL), low Vero cell toxicity (IC50 ≥ 16 μg/mL), and moderate liver microsomal stability (CLint = 28 μL/min/mg). Furthermore, the resistant mutant of S288T due to single nucleotide polymorphism in mmpL3 was resistant to pyridine-2-methylamine 62, demonstrating compound 62 is likely target to MmpL3.",

keywords = "MDR and XDR tuberculosis, MmpL3, Pyridine-2-methylamine, Structure-based drug design",

author = "Yu Wen and Shichun Lun and Yuxue Jiao and Wei Zhang and Ting Liu and Fan Yang and Jie Tang and Bishai, \{William R.\} and Yu, \{Li Fang\}",

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AU - Wen, Yu

AU - Lun, Shichun

AU - Jiao, Yuxue

AU - Zhang, Wei

AU - Liu, Ting

AU - Yang, Fan

AU - Tang, Jie

AU - Bishai, William R.

AU - Yu, Li Fang

PY - 2023/7/5

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N2 - Mycobacterial membrane protein Large 3 (MmpL3), an inner membrane protein, plays a crucial role in the transport of mycolic acids that are essential for the viability of M. tuberculosis and has been a promising therapeutic target for new anti-TB agents. Herein, we report the discovery of pyridine-2-methylamine antitubercular compounds using a structure-based drug design strategy. Compound 62 stands out as the most potent compound with high activity against M. tb strain H37Rv (MIC = 0.016 μg/mL) as well as the clinically isolated strains of MDR/XDR-TB (MIC = 0.0039–0.0625 μg/mL), low Vero cell toxicity (IC50 ≥ 16 μg/mL), and moderate liver microsomal stability (CLint = 28 μL/min/mg). Furthermore, the resistant mutant of S288T due to single nucleotide polymorphism in mmpL3 was resistant to pyridine-2-methylamine 62, demonstrating compound 62 is likely target to MmpL3.

AB - Mycobacterial membrane protein Large 3 (MmpL3), an inner membrane protein, plays a crucial role in the transport of mycolic acids that are essential for the viability of M. tuberculosis and has been a promising therapeutic target for new anti-TB agents. Herein, we report the discovery of pyridine-2-methylamine antitubercular compounds using a structure-based drug design strategy. Compound 62 stands out as the most potent compound with high activity against M. tb strain H37Rv (MIC = 0.016 μg/mL) as well as the clinically isolated strains of MDR/XDR-TB (MIC = 0.0039–0.0625 μg/mL), low Vero cell toxicity (IC50 ≥ 16 μg/mL), and moderate liver microsomal stability (CLint = 28 μL/min/mg). Furthermore, the resistant mutant of S288T due to single nucleotide polymorphism in mmpL3 was resistant to pyridine-2-methylamine 62, demonstrating compound 62 is likely target to MmpL3.

KW - MDR and XDR tuberculosis

KW - MmpL3

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KW - Structure-based drug design

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DO - 10.1016/j.ejmech.2023.115351

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SN - 0223-5234

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JO - European Journal of Medicinal Chemistry

JF - European Journal of Medicinal Chemistry

M1 - 115351

ER -

Structure-directed identification of pyridine-2-methylamine derivatives as MmpL3 inhibitors for use as antitubercular agents

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