Origin of the Proton-transfer Step in the Cofactor-free (1H)-3-Hydroxy-4-oxoquinaldine 2,4-Dioxygenase

Dioxygenases catalyze a diverse range of chemical reactions that involve the incorporation of oxygen into a substrate and typically use a transition metal or organic cofactor for reaction. Bacterial (1H)-3-hydroxy-4-oxoquinaldine 2,4-dioxygenase (HOD) belongs to a class of oxygenases able to catalyz...

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Published in	The Journal of biological chemistry Vol. 289; no. 12; pp. 8620 - 8632
Main Authors	Hernandez-Ortega, Aitor, Quesne, Matthew G., Bui, Soi, Heuts, Dominic P.H.M., Steiner, Roberto A., Heyes, Derren J., de Visser, Sam P., Scrutton, Nigel S.
Format	Journal Article
Language	English
Published	Elsevier Inc 01.03.2014
Subjects	DFT Calculations Enzyme Kinetics Enzyme Mechanisms Isotope Effects Molecular Dynamics Quantum Mechanics/Molecular Mechanics Site-directed Mutagenesis Enzyme Mechanisms Site-directed Mutagenesis Molecular Dynamics Quantum Mechanics/Molecular Mechanics DFT Calculations Enzyme Kinetics Isotope Effects
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Abstract	Dioxygenases catalyze a diverse range of chemical reactions that involve the incorporation of oxygen into a substrate and typically use a transition metal or organic cofactor for reaction. Bacterial (1H)-3-hydroxy-4-oxoquinaldine 2,4-dioxygenase (HOD) belongs to a class of oxygenases able to catalyze this energetically unfavorable reaction without any cofactor. In the quinaldine metabolic pathway, HOD breaks down its natural N-heteroaromatic substrate using a mechanism that is still incompletely understood. Experimental and computational approaches were combined to study the initial step of the catalytic cycle. We have investigated the role of the active site His-251/Asp-126 dyad, proposed to be involved in substrate hydroxyl group deprotonation, a critical requirement for subsequent oxygen reaction. The pH profiles obtained under steady-state conditions for the H251A and D126A variants show a strong pH effect on their kcat and kcat/Km constants, with a decrease in kcat/Km of 5500- and 9-fold at pH 10.5, respectively. Substrate deprotonation studies under transient-state conditions show that this step is not rate-limiting and yield a pKa value of ∼7.2 for WT HOD. A large solvent isotope effect was found, and the pKa value was shifted to ∼8.3 in D2O. Crystallographic and computational studies reveal that the mutations have a minor effect on substrate positioning. Computational work shows that both His-251 and Asp-126 are essential for the proton transfer driving force of the initial reaction. This multidisciplinary study offers unambiguous support to the view that substrate deprotonation, driven by the His/Asp dyad, is an essential requirement for its activation. Background: The mechanism of cofactor-free dioxygenases has not been clearly elucidated. Results: Mutation of the His/Asp dyad in (1H)-3-hydroxy-4-oxoquinaldine 2,4-dioxygenase strongly affects substrate deprotonation and overall catalysis. Conclusion: Base mechanism is demonstrated where His-251 acts as catalytic base and Asp-126 modulates basicity. Significance: Many dioxygenases activate their substrates via deprotonation, which is an essential step for later reaction with oxygen.
AbstractList	Dioxygenases catalyze a diverse range of chemical reactions that involve the incorporation of oxygen into a substrate and typically use a transition metal or organic cofactor for reaction. Bacterial (1H)-3-hydroxy-4-oxoquinaldine 2,4-dioxygenase (HOD) belongs to a class of oxygenases able to catalyze this energetically unfavorable reaction without any cofactor. In the quinaldine metabolic pathway, HOD breaks down its natural N-heteroaromatic substrate using a mechanism that is still incompletely understood. Experimental and computational approaches were combined to study the initial step of the catalytic cycle. We have investigated the role of the active site His-251/Asp-126 dyad, proposed to be involved in substrate hydroxyl group deprotonation, a critical requirement for subsequent oxygen reaction. The pH profiles obtained under steady-state conditions for the H251A and D126A variants show a strong pH effect on their kcat and kcat/Km constants, with a decrease in kcat/Km of 5500- and 9-fold at pH 10.5, respectively. Substrate deprotonation studies under transient-state conditions show that this step is not rate-limiting and yield a pKa value of ∼7.2 for WT HOD. A large solvent isotope effect was found, and the pKa value was shifted to ∼8.3 in D2O. Crystallographic and computational studies reveal that the mutations have a minor effect on substrate positioning. Computational work shows that both His-251 and Asp-126 are essential for the proton transfer driving force of the initial reaction. This multidisciplinary study offers unambiguous support to the view that substrate deprotonation, driven by the His/Asp dyad, is an essential requirement for its activation. Background: The mechanism of cofactor-free dioxygenases has not been clearly elucidated. Results: Mutation of the His/Asp dyad in (1H)-3-hydroxy-4-oxoquinaldine 2,4-dioxygenase strongly affects substrate deprotonation and overall catalysis. Conclusion: Base mechanism is demonstrated where His-251 acts as catalytic base and Asp-126 modulates basicity. Significance: Many dioxygenases activate their substrates via deprotonation, which is an essential step for later reaction with oxygen.
Author	Heyes, Derren J. Scrutton, Nigel S. Hernandez-Ortega, Aitor Steiner, Roberto A. de Visser, Sam P. Heuts, Dominic P.H.M. Bui, Soi Quesne, Matthew G.
Author_xml	– sequence: 1 givenname: Aitor surname: Hernandez-Ortega fullname: Hernandez-Ortega, Aitor organization: Manchester Institute of Biotechnology, University of Manchester, Manchester M1 7DN – sequence: 2 givenname: Matthew G. surname: Quesne fullname: Quesne, Matthew G. organization: Manchester Institute of Biotechnology, University of Manchester, Manchester M1 7DN – sequence: 3 givenname: Soi surname: Bui fullname: Bui, Soi organization: Randall Division of Cell and Molecular Biophysics, King's College London, London SE1 1UL, United Kingdom – sequence: 4 givenname: Dominic P.H.M. surname: Heuts fullname: Heuts, Dominic P.H.M. organization: Manchester Institute of Biotechnology, University of Manchester, Manchester M1 7DN – sequence: 5 givenname: Roberto A. surname: Steiner fullname: Steiner, Roberto A. email: roberto.steiner@kcl.ac.uk organization: Randall Division of Cell and Molecular Biophysics, King's College London, London SE1 1UL, United Kingdom – sequence: 6 givenname: Derren J. surname: Heyes fullname: Heyes, Derren J. organization: Manchester Institute of Biotechnology, University of Manchester, Manchester M1 7DN – sequence: 7 givenname: Sam P. surname: de Visser fullname: de Visser, Sam P. email: sam.devisser@manchester.ac.uk organization: Manchester Institute of Biotechnology, University of Manchester, Manchester M1 7DN – sequence: 8 givenname: Nigel S. surname: Scrutton fullname: Scrutton, Nigel S. email: nigel.scrutton@manchester.ac.uk organization: Manchester Institute of Biotechnology, University of Manchester, Manchester M1 7DN
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Snippet	Dioxygenases catalyze a diverse range of chemical reactions that involve the incorporation of oxygen into a substrate and typically use a transition metal or...
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SubjectTerms	DFT Calculations Enzyme Kinetics Enzyme Mechanisms Isotope Effects Molecular Dynamics Quantum Mechanics/Molecular Mechanics Site-directed Mutagenesis
Title	Origin of the Proton-transfer Step in the Cofactor-free (1H)-3-Hydroxy-4-oxoquinaldine 2,4-Dioxygenase
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