Open AccessNovel Pyrimidines as Antitubercular Agents
Author(s) -
Daigo Inoyama,
Steven D. Paget,
Riccardo Russo,
Srinivasan Kandasamy,
Pradeep Kumar,
Eric Singleton,
James Occi,
Margareta Tuckman,
Matthew Zimmerman,
Hsin Pin Ho,
Alexander L. Perryman,
Véronique Dartois,
Nancy Connell,
Joel S. Freundlich
Publication year - 2018
Publication title -
antimicrobial agents and chemotherapy
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.07
H-Index - 259
eISSN - 1070-6283
pISSN - 0066-4804
DOI - 10.1128/aac.02063-17
Subject(s) - mycobacterium tuberculosis , in vitro , triazine , pharmacokinetics , pharmacology , pyrimidine , small molecule , cytotoxicity , tuberculosis , chemistry , combinatorial chemistry , computational biology , medicine , biology , biochemistry , pathology , polymer chemistry
Mycobacterium tuberculosis infection is responsible for a global pandemic. New drugs are needed that do not show cross-resistance with the existing front-line therapeutics. A triazine antitubercular hit led to the design of a related pyrimidine family. The synthesis of a focused series of these analogs facilitated exploration of theirin vitro activity,in vitro cytotoxicity, and physiochemical and absorption-distribution-metabolism-excretion properties. Select pyrimidines were then evaluated for their pharmacokinetic profiles in mice. The findings suggest a rationale for the further evolution of this promising series of antitubercular small molecules, which appear to share some similarities with the clinical compound PA-824 in terms of activation, while highlighting more general guidelines for the optimization of small-molecule antitubercular agents.
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