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Resistance of Mycobacterium tuberculosis to indole 4-carboxamides occurs through alterations in drug metabolism and tryptophan biosynthesis

M. Daben J. Libardo, Caroline J. Duncombe, Simon R. Green, Paul G. Wyatt, Stephen Thompson, Peter C. Ray, Thomas R. Ioerger, Sangmi Oh, Michael Goodwin, Helena I. Boshoff, Clifton E. Barry

2021Cell chemical biology16 citationsDOIOpen Access PDF

Abstract

Tryptophan biosynthesis represents an important potential drug target for new anti-TB drugs. We identified a series of indole-4-carboxamides with potent antitubercular activity. In vitro, Mycobacterium tuberculosis (Mtb) acquired resistance to these compounds through three discrete mechanisms: (1) a decrease in drug metabolism via loss-of-function mutations in the amidase that hydrolyses these carboxamides, (2) an increased biosynthetic rate of tryptophan precursors via loss of allosteric feedback inhibition of anthranilate synthase (TrpE), and (3) mutation of tryptophan synthase (TrpAB) that decreased incorporation of 4-aminoindole into 4-aminotryptophan. Thus, these indole-4-carboxamides act as prodrugs of a tryptophan antimetabolite, 4-aminoindole.

Topics & Concepts

Indole testTryptophan synthaseTryptophanMycobacterium tuberculosisProdrugAmidaseBiosynthesisBiochemistryMetabolismChemistryPharmacologyBiologyTuberculosisEnzymeMedicineAmino acidPathologyTuberculosis Research and EpidemiologyBiochemical and Molecular ResearchMycobacterium research and diagnosis
Resistance of Mycobacterium tuberculosis to indole 4-carboxamides occurs through alterations in drug metabolism and tryptophan biosynthesis | Litcius