1. 1H and 13C NMR Characterization of Hemiamidal Isoniazid-NAD(H) Adducts as Possible Inhibitors Of InhA Reductase of Mycobacterium tuberculosis
- Author
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Yannick Coppel, Jean Bernadou, Michel Nguyen, Sylvain Broussy, and Bernard Meunier
- Subjects
Magnetic Resonance Spectroscopy ,Stereochemistry ,Crystallography, X-Ray ,Mass Spectrometry ,Catalysis ,Cofactor ,Adduct ,chemistry.chemical_compound ,Bacterial Proteins ,Isoniazid ,medicine ,Nicotinamide ,biology ,INHA ,Organic Chemistry ,Active site ,Mycobacterium tuberculosis ,General Chemistry ,Nuclear magnetic resonance spectroscopy ,Hydrogen-Ion Concentration ,NAD ,bacterial infections and mycoses ,chemistry ,Cyclization ,biology.protein ,Indicators and Reagents ,NAD+ kinase ,Oxidoreductases ,Oxidation-Reduction ,Chromatography, Liquid ,medicine.drug - Abstract
Isoniazid (INH) is easily oxidized with manganese(III) pyrophosphate, a chemical model of the KatG protein involved in activation of INH inside the bacteria Mycobacterium tuberculosis. Performed in the presence of NAD(+), this oxidation generates a family of isomeric INH-NAD(H) adducts, which have been shown to be effective inhibitors of InhA, an enzyme essential in mycolic acid biosynthesis. In this work, we fully characterized by (1)H and (13)C NMR spectroscopy four main species of INH-NAD(H) adducts that coexist in solution. Two of them are open diastereoisomers consisting of the covalent attachment of the isonicotinoyl radical at position four of the nicotinamide coenzyme. The other two result from a cyclization involving the amide group from the nicotinamide and the carbonyl group from the isonicotinoyl radical to give diastereoisomeric hemiamidals. Although an INH-NAD(H) adduct with a 4S configuration has been characterized within the active site of InhA from Xray crystallography and this bound adduct interpreted as an open form (Rozwarski et al., Science 1998, 279, 98-102), it is legitimate to raise the question about the effective active form(s), open or cyclic, of INH-NAD(H) adduct(s). Is there a single active form or are several forms able to inhibit the InhA activity with different levels of inhibitory potency?
- Published
- 2003