5l02 Citations

Structural characterization of the Ser324Thr variant of the catalase-peroxidase (KatG) from Burkholderia pseudomallei.

Deemagarn T, Carpena X, Singh R, Wiseman B, Fita I, Loewen PC
J Mol Biol 345 21-8 (2005)
Cited: 15 times
EuropePMC logo PMID: 15567407

Abstract

The Ser315Thr variant of the catalase-peroxidase KatG from Mycobacterium tuberculosis imparts resistance to the pro-drug isonicotinic acid hydrazide (isoniazid) through a failure to convert it to the active drug, isonicotinoyl-NAD. The equivalent variant in KatG from Burkholderia pseudomallei, Ser324Thr, has been constructed, revealing catalase and peroxidase activities that are similar to those of the native enzyme. The other activities of the variant protein, including the NADH oxidase, the isoniazid hydrazinolysis and isonicotinoyl-NAD synthase activities are reduced by 60-70%. The crystal structure of the variant differs from that of the native enzyme in having the methyl group of Thr324 situated in the entrance channel to the heme cavity, in a modified water matrix in the entrance channel and heme cavity, in lacking the putative perhydroxy modification on the heme, in the multiple locations of a few side-chains, and in the presence of an apparent perhydroxy modification on the indole nitrogen atom of the active-site Trp111. The position of the methyl group of Thr324 creates a constriction or narrowing of the channel leading to the heme cavity, providing an explanation for the lower reactivity towards isoniazid and the slower rate of isonicotinoyl-NAD synthesis.

Reviews citing this publication (4)

  1. Probing the structure and bifunctionality of catalase-peroxidase (KatG). Smulevich G, Jakopitsch C, Droghetti E, Obinger C. J Inorg Biochem 100 568-585 (2006)
  2. Thirty years of heme catalases structural biology. Díaz A, Loewen PC, Fita I, Carpena X. Arch Biochem Biophys 525 102-110 (2012)
  3. Catalase in peroxidase clothing: Interdependent cooperation of two cofactors in the catalytic versatility of KatG. Njuma OJ, Ndontsa EN, Goodwin DC. Arch Biochem Biophys 544 27-39 (2014)
  4. Update of Antitubercular Prodrugs from a Molecular Perspective: Mechanisms of Action, Bioactivation Pathways, and Associated Resistance. Laborde J, Deraeve C, Bernardes-Génisson V. ChemMedChem 12 1657-1676 (2017)

Articles citing this publication (11)

  1. Comparative study of catalase-peroxidases (KatGs). Singh R, Wiseman B, Deemagarn T, Jha V, Switala J, Loewen PC. Arch Biochem Biophys 471 207-214 (2008)
  2. Isonicotinic acid hydrazide conversion to Isonicotinyl-NAD by catalase-peroxidases. Wiseman B, Carpena X, Feliz M, Donald LJ, Pons M, Fita I, Loewen PC. J Biol Chem 285 26662-26673 (2010)
  3. Design, synthesis and biological evaluation of novel isoniazid derivatives with potent antitubercular activity. Martins F, Santos S, Ventura C, Elvas-Leitão R, Santos L, Vitorino S, Reis M, Miranda V, Correia HF, Aires-de-Sousa J, Kovalishyn V, Latino DA, Ramos J, Viveiros M. Eur J Med Chem 81 119-138 (2014)
  4. Radical sites in Mycobacterium tuberculosis KatG identified using electron paramagnetic resonance spectroscopy, the three-dimensional crystal structure, and electron transfer couplings. Ranguelova K, Girotto S, Gerfen GJ, Yu S, Suarez J, Metlitsky L, Magliozzo RS. J Biol Chem 282 6255-6264 (2007)
  5. A molecular switch and electronic circuit modulate catalase activity in catalase-peroxidases. Carpena X, Wiseman B, Deemagarn T, Singh R, Switala J, Ivancich A, Fita I, Loewen PC. EMBO Rep 6 1156-1162 (2005)
  6. Identification of Trp106 as the tryptophanyl radical intermediate in Synechocystis PCC6803 catalase-peroxidase by multifrequency Electron Paramagnetic Resonance spectroscopy. Jakopitsch C, Obinger C, Un S, Ivancich A. J Inorg Biochem 100 1091-1099 (2006)
  7. Two alternative substrate paths for compound I formation and reduction in catalase-peroxidase KatG from Burkholderia pseudomallei. Deemagarn T, Wiseman B, Carpena X, Ivancich A, Fita I, Loewen PC. Proteins 66 219-228 (2007)
  8. The crystal structure of isoniazid-bound KatG catalase-peroxidase from Synechococcus elongatus PCC7942. Kamachi S, Hirabayashi K, Tamoi M, Shigeoka S, Tada T, Wada K. FEBS J 282 54-64 (2015)
  9. Crystal structure of the catalase-peroxidase KatG W78F mutant from Synechococcus elongatus PCC7942 in complex with the antitubercular pro-drug isoniazid. Kamachi S, Hirabayashi K, Tamoi M, Shigeoka S, Tada T, Wada K. FEBS Lett 589 131-137 (2015)
  10. Molecular investigation of active binding site of isoniazid (INH) and insight into resistance mechanism of S315T-MtKatG in Mycobacterium tuberculosis. Srivastava G, Tripathi S, Kumar A, Sharma A. Tuberculosis (Edinb) 105 18-27 (2017)
  11. Detection of First-Line Drug Resistance Mutations and Drug-Protein Interaction Dynamics from Tuberculosis Patients in South India. Nachappa SA, Neelambike SM, Amruthavalli C, Ramachandra NB. Microb Drug Resist 24 377-385 (2018)


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