1. The structure-activity relationship of urea derivatives as anti-tuberculosis agents.
- Author
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Brown JR, North EJ, Hurdle JG, Morisseau C, Scarborough JS, Sun D, Korduláková J, Scherman MS, Jones V, Grzegorzewicz A, Crew RM, Jackson M, McNeil MR, and Lee RE
- Subjects
- Animals, Antitubercular Agents chemical synthesis, Antitubercular Agents chemistry, Cell Line, Cell Proliferation drug effects, Chlorocebus aethiops, Dose-Response Relationship, Drug, Enzyme Inhibitors chemical synthesis, Enzyme Inhibitors chemistry, Humans, Microbial Sensitivity Tests, Molecular Structure, Small Molecule Libraries, Stereoisomerism, Structure-Activity Relationship, Urea analogs & derivatives, Urea chemistry, Vero Cells, Antitubercular Agents pharmacology, Enzyme Inhibitors pharmacology, Epoxide Hydrolases antagonists & inhibitors, Mycobacterium tuberculosis drug effects, Receptors, Eph Family antagonists & inhibitors, Urea pharmacology
- Abstract
The treatment of tuberculosis is becoming more difficult due to the ever increasing prevalence of drug resistance. Thus, it is imperative that novel anti-tuberculosis agents, with unique mechanisms of action, be discovered and developed. The direct anti-tubercular testing of a small compound library led to discovery of adamantyl urea hit compound 1. In this study, the hit was followed up through the synthesis of an optimization library. This library was generated by systematically replacing each section of the molecule with a similar moiety until a clear structure-activity relationship was obtained with respect to anti-tubercular activity. The best compounds in this series contained a 1-adamantyl-3-phenyl urea core and had potent activity against Mycobacterium tuberculosis plus an acceptable therapeutic index. It was noted that the compounds identified and the pharmacophore developed is consistent with inhibitors of epoxide hydrolase family of enzymes. Consequently, the compounds were tested for inhibition of representative epoxide hydrolases: M. tuberculosis EphB and EphE; and human soluble epoxide hydrolase. Many of the optimized inhibitors showed both potent EphB and EphE inhibition suggesting the antitubercular activity is through inhibition of multiple epoxide hydrolase enzymes. The inhibitors also showed potent inhibition of humans soluble epoxide hydrolase, but limited cytotoxicity suggesting that future studies must be towards increasing the selectivity of epoxide hydrolase inhibition towards the M. tuberculosis enzymes., (Copyright © 2011 Elsevier Ltd. All rights reserved.)
- Published
- 2011
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