1dgf Citations

Active and inhibited human catalase structures: ligand and NADPH binding and catalytic mechanism.

Putnam CD, Arvai AS, Bourne Y, Tainer JA
J Mol Biol 296 295-309 (2000)
Related entries: 1dgb, 1dgg, 1dgh

Cited: 196 times
EuropePMC logo PMID: 10656833

Abstract

Human catalase is an heme-containing peroxisomal enzyme that breaks down hydrogen peroxide to water and oxygen; it is implicated in ethanol metabolism, inflammation, apoptosis, aging and cancer. The 1. 5 A resolution human enzyme structure, both with and without bound NADPH, establishes the conserved features of mammalian catalase fold and assembly, implicates Tyr370 as the tyrosine radical, suggests the structural basis for redox-sensitive binding of cognate mRNA via the catalase NADPH binding site, and identifies an unexpectedly substantial number of water-mediated domain contacts. A molecular ruler mechanism based on observed water positions in the 25 A-long channel resolves problems for selecting hydrogen peroxide. Control of water-mediated hydrogen bonds by this ruler selects for the longer hydrogen peroxide and explains the paradoxical effects of mutations that increase active site access but lower catalytic rate. The heme active site is tuned without compromising peroxide binding through a Tyr-Arg-His-Asp charge relay, arginine residue to heme carboxylate group hydrogen bonding, and aromatic stacking. Structures of the non-specific cyanide and specific 3-amino-1,2, 4-triazole inhibitor complexes of human catalase identify their modes of inhibition and help reveal the catalytic mechanism of catalase. Taken together, these resting state and inhibited human catalase structures support specific, structure-based mechanisms for the catalase substrate recognition, reaction and inhibition and provide a molecular basis for understanding ethanol intoxication and the likely effects of human polymorphisms.

Articles - 1dgf mentioned but not cited (17)

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  11. A novel synthetised sulphonylhydrazone coumarin (E)-4-methyl-N'-(1-(3-oxo-3H-benzo[f]chromen-2- yl)ethylidene)benzenesulphonohydrazide protect against isoproterenol-induced myocardial infarction in rats by attenuating oxidative damage, biological changes and electrocardiogram. Ghazouani L, Khdhiri E, Elmufti A, Zarei A, Feriani A, Baaziz I, Hajji R, Abid M, Ammar H, Abid S, Allouche N, Mnafgui K, Ramazani A, Tlili N. Clin Exp Pharmacol Physiol 49 1010-1026 (2022)
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  13. Defining the Potential Targets for Biological Activity of Isoegomaketone Based on Network Pharmacology and Molecular Docking Methods. Zhang J, Wang R, Qin Y, Feng C. Life (Basel) 12 2115 (2022)
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  15. Single Point Mutation from E22-to-K in Aβ Initiates Early-Onset Alzheimer's Disease by Binding with Catalase. Jiang W, YanYu, Yao D, Fei X, Ai L, Di Y, Zhang J, Yue X, Zhao S, He R, Lyu J, Tong Z. Oxid Med Cell Longev 2020 4981204 (2020)
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Reviews citing this publication (33)

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  19. Peroxidases: a role in the metabolism and side effects of drugs. Tafazoli S, O'Brien PJ. Drug Discov Today 10 617-625 (2005)
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  26. Function and Molecular Mechanism of the DNA Damage Response in Immunity and Cancer Immunotherapy. Ye Z, Shi Y, Lees-Miller SP, Tainer JA. Front Immunol 12 797880 (2021)
  27. Essential Protective Role of Catalytically Active Antibodies (Abzymes) with Redox Antioxidant Functions in Animals and Humans. Tolmacheva AS, Nevinsky GA. Int J Mol Sci 23 3898 (2022)
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  31. The Intestinal Redox System and Its Significance in Chemotherapy-Induced Intestinal Mucositis. Yu QQ, Zhang H, Guo Y, Han B, Jiang P. Oxid Med Cell Longev 2022 7255497 (2022)
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Articles citing this publication (146)

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  70. Flavonoid-induced conversion of catalase to its inactive form--Compound II. Krych J, Gebicki JL, Gebicka L. Free Radic Res 48 1334-1341 (2014)
  71. PPAR- γ impairment alters peroxisome functionality in primary astrocyte cell cultures. Di Cesare Mannelli L, Zanardelli M, Micheli L, Ghelardini C. Biomed Res Int 2014 546453 (2014)
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