Tuberculosis remains one of the world's most devastating infectious diseases. Targeting the essential cell wall enzyme, DprE1 has emerged as a promising therapeutic strategy. In this study, we report the discovery of a novel selenium-containing scaffold, benzoselenazinones (BSZs), which was designed through selenium-for-sulfur replacement in benzothiazinones (BTZs) to combine DprE1 inhibition with the pharmacological benefits of organoselenium compounds. Most BSZ derivatives exhibited exceptional anti-TB activity (MICs < 0.03 mu M), low cytotoxicity (Vero IC(50)s > 100 mu M), and potent DprE1 inhibition (IC(50)s < 0.1 mu M). Moreover, compound 11c demonstrated superior oral bioavailability (F % = 31.9%) compared to the representative PBTZ169 of BTZs in CD-1 mice, positioning it as a promising preclinical candidate. This study highlights the potential of selenium-based bioisosteres in anti-TB drug discovery and offers a novel benzoselenazinone scaffold with enhanced efficacy and safety for further development.
Discovery of Potent Benzoselenazinone-Based DprE1 Inhibitors: A Novel Selenium-Containing Scaffold with Superior Anti-TB Activity and Pharmacokinetic Properties / Y. Liu, X. Xu, C. Mao, B. Wang, M. Cocorullo, A. Tresoldi, M. Mori, B. Wang, Y. Lu, H. Huang, L.R. Chiarelli, P. Li. - In: JOURNAL OF MEDICINAL CHEMISTRY. - ISSN 0022-2623. - (2026), pp. 1-15. [Epub ahead of print] [10.1021/acs.jmedchem.5c03770]
Discovery of Potent Benzoselenazinone-Based DprE1 Inhibitors: A Novel Selenium-Containing Scaffold with Superior Anti-TB Activity and Pharmacokinetic Properties
A. Tresoldi;M. Mori;
2026
Abstract
Tuberculosis remains one of the world's most devastating infectious diseases. Targeting the essential cell wall enzyme, DprE1 has emerged as a promising therapeutic strategy. In this study, we report the discovery of a novel selenium-containing scaffold, benzoselenazinones (BSZs), which was designed through selenium-for-sulfur replacement in benzothiazinones (BTZs) to combine DprE1 inhibition with the pharmacological benefits of organoselenium compounds. Most BSZ derivatives exhibited exceptional anti-TB activity (MICs < 0.03 mu M), low cytotoxicity (Vero IC(50)s > 100 mu M), and potent DprE1 inhibition (IC(50)s < 0.1 mu M). Moreover, compound 11c demonstrated superior oral bioavailability (F % = 31.9%) compared to the representative PBTZ169 of BTZs in CD-1 mice, positioning it as a promising preclinical candidate. This study highlights the potential of selenium-based bioisosteres in anti-TB drug discovery and offers a novel benzoselenazinone scaffold with enhanced efficacy and safety for further development.
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