A Kinetic Isotope Effect and Isotope Exchange Study of the Nonenzymatic and the Equine Serum Butyrylcholinesterase-Catalyzed Thioester Hydrolysis

A Kinetic Isotope Effect and Isotope Exchange Study of the Nonenzymatic and the Equine Serum Butyrylcholinesterase-Catalyzed Thioester Hydrolysis

Formylthiocholine (FTC) was synthesized and found to be a substrate for nonenzymatic and butyrylcholinesterase (BChE)-catalyzed hydrolysis. Solvent (D2O) and secondary formyl-H kinetic isotope effects (KIEs) were measured by an NMR spectroscopic method. The solvent (D2O) KIEs are D2O k = 0.20 in 200...

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Veröffentlicht in:Journal of organic chemistry 2013-12, Vol.78 (23), p.12029-12039
Hauptverfasser: Robins, Lori I, Meisenheimer, Kristen M, Fogle, Emily J, Chaplan, Cory A, Redman, Richard L, Vacca, Joseph T, Tellier, Michelle R, Collins, Brittney R, Duong, Dorothea H, Schulz, Kathrin, Marlier, John F
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Biocatalysis
Butyrylcholinesterase - blood
Butyrylcholinesterase - metabolism
Deuterium Oxide - chemistry
Esters - chemistry
Esters - metabolism
Kinetics
Molecular Structure
Oxygen Isotopes
Sulfhydryl Compounds - chemistry
Sulfhydryl Compounds - metabolism
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container_end_page 12039
container_issue 23
container_start_page 12029
container_title Journal of organic chemistry
container_volume 78
creator Robins, Lori I
Meisenheimer, Kristen M
Fogle, Emily J
Chaplan, Cory A
Redman, Richard L
Vacca, Joseph T
Tellier, Michelle R
Collins, Brittney R
Duong, Dorothea H
Schulz, Kathrin
Marlier, John F
description Formylthiocholine (FTC) was synthesized and found to be a substrate for nonenzymatic and butyrylcholinesterase (BChE)-catalyzed hydrolysis. Solvent (D2O) and secondary formyl-H kinetic isotope effects (KIEs) were measured by an NMR spectroscopic method. The solvent (D2O) KIEs are D2O k = 0.20 in 200 mM HCl, D2O k = 0.81 in 50 mM HCl, and D2O k = 4.2 in pure water. The formyl-H KIEs are D k = 0.80 in 200 mM HCl, D k = 0.77 in 50 mM HCl, D k = 0.75 in pure water, D k = 0.88 in 50 mM NaOH, and D(V/K) = 0.89 in the BChE-catalyzed hydrolysis in MES buffer at pH 6.8. Positional isotope exchange experiments showed no detectable exchange of 18O into the carbonyl oxygen of FTC or the product, formate, under any of the above conditions. Solvent nucleophile-O KIEs were determined to be 18 k = 0.9917 under neutral conditions, 18 k = 1.0290 (water nucleophile) or 18 k = 0.989 (hydroxide nucleophile) under alkaline conditions, and 18(V/K) = 0.9925 for BChE catalysis. The acidic, neutral, and BChE-catalyzed reactions are explained in terms of a stepwise mechanism with tetrahedral intermediates. Evidence for a change to a direct displacement mechanism under alkaline conditions is presented.
doi_str_mv 10.1021/jo402063k
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Solvent (D2O) and secondary formyl-H kinetic isotope effects (KIEs) were measured by an NMR spectroscopic method. The solvent (D2O) KIEs are D2O k = 0.20 in 200 mM HCl, D2O k = 0.81 in 50 mM HCl, and D2O k = 4.2 in pure water. The formyl-H KIEs are D k = 0.80 in 200 mM HCl, D k = 0.77 in 50 mM HCl, D k = 0.75 in pure water, D k = 0.88 in 50 mM NaOH, and D(V/K) = 0.89 in the BChE-catalyzed hydrolysis in MES buffer at pH 6.8. Positional isotope exchange experiments showed no detectable exchange of 18O into the carbonyl oxygen of FTC or the product, formate, under any of the above conditions. Solvent nucleophile-O KIEs were determined to be 18 k = 0.9917 under neutral conditions, 18 k = 1.0290 (water nucleophile) or 18 k = 0.989 (hydroxide nucleophile) under alkaline conditions, and 18(V/K) = 0.9925 for BChE catalysis. The acidic, neutral, and BChE-catalyzed reactions are explained in terms of a stepwise mechanism with tetrahedral intermediates. 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Org. Chem</addtitle><description>Formylthiocholine (FTC) was synthesized and found to be a substrate for nonenzymatic and butyrylcholinesterase (BChE)-catalyzed hydrolysis. Solvent (D2O) and secondary formyl-H kinetic isotope effects (KIEs) were measured by an NMR spectroscopic method. The solvent (D2O) KIEs are D2O k = 0.20 in 200 mM HCl, D2O k = 0.81 in 50 mM HCl, and D2O k = 4.2 in pure water. The formyl-H KIEs are D k = 0.80 in 200 mM HCl, D k = 0.77 in 50 mM HCl, D k = 0.75 in pure water, D k = 0.88 in 50 mM NaOH, and D(V/K) = 0.89 in the BChE-catalyzed hydrolysis in MES buffer at pH 6.8. Positional isotope exchange experiments showed no detectable exchange of 18O into the carbonyl oxygen of FTC or the product, formate, under any of the above conditions. Solvent nucleophile-O KIEs were determined to be 18 k = 0.9917 under neutral conditions, 18 k = 1.0290 (water nucleophile) or 18 k = 0.989 (hydroxide nucleophile) under alkaline conditions, and 18(V/K) = 0.9925 for BChE catalysis. The acidic, neutral, and BChE-catalyzed reactions are explained in terms of a stepwise mechanism with tetrahedral intermediates. 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Org. Chem</addtitle><date>2013-12-06</date><risdate>2013</risdate><volume>78</volume><issue>23</issue><spage>12029</spage><epage>12039</epage><pages>12029-12039</pages><issn>0022-3263</issn><eissn>1520-6904</eissn><abstract>Formylthiocholine (FTC) was synthesized and found to be a substrate for nonenzymatic and butyrylcholinesterase (BChE)-catalyzed hydrolysis. Solvent (D2O) and secondary formyl-H kinetic isotope effects (KIEs) were measured by an NMR spectroscopic method. The solvent (D2O) KIEs are D2O k = 0.20 in 200 mM HCl, D2O k = 0.81 in 50 mM HCl, and D2O k = 4.2 in pure water. The formyl-H KIEs are D k = 0.80 in 200 mM HCl, D k = 0.77 in 50 mM HCl, D k = 0.75 in pure water, D k = 0.88 in 50 mM NaOH, and D(V/K) = 0.89 in the BChE-catalyzed hydrolysis in MES buffer at pH 6.8. Positional isotope exchange experiments showed no detectable exchange of 18O into the carbonyl oxygen of FTC or the product, formate, under any of the above conditions. Solvent nucleophile-O KIEs were determined to be 18 k = 0.9917 under neutral conditions, 18 k = 1.0290 (water nucleophile) or 18 k = 0.989 (hydroxide nucleophile) under alkaline conditions, and 18(V/K) = 0.9925 for BChE catalysis. The acidic, neutral, and BChE-catalyzed reactions are explained in terms of a stepwise mechanism with tetrahedral intermediates. Evidence for a change to a direct displacement mechanism under alkaline conditions is presented.</abstract><cop>United States</cop><pub>American Chemical Society</pub><pmid>24224609</pmid><doi>10.1021/jo402063k</doi><tpages>11</tpages></addata></record>
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subjects Biocatalysis
Butyrylcholinesterase - blood
Butyrylcholinesterase - metabolism
Deuterium Oxide - chemistry
Esters - chemistry
Esters - metabolism
Kinetics
Molecular Structure
Oxygen Isotopes
Sulfhydryl Compounds - chemistry
Sulfhydryl Compounds - metabolism
title A Kinetic Isotope Effect and Isotope Exchange Study of the Nonenzymatic and the Equine Serum Butyrylcholinesterase-Catalyzed Thioester Hydrolysis
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