Sulfonate/Nitro Bearing Methylmalonyl-Thioester Isosteres Applied to Methylmalonyl-CoA Decarboxylase Structure–Function Studies

Malonyl-thioesters are reactive centers of malonyl-CoA and malonyl-S-acyl carrier protein, essential to fatty acid, polyketide and various specialized metabolite biosynthesis. Enzymes that create or use malonyl-thioesters spontaneously hydrolyze or decarboxylate reactants on the crystallographic tim...

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Veröffentlicht in:	Journal of the American Chemical Society 2019-04, Vol.141 (13), p.5121-5124
Hauptverfasser:	Stunkard, Lee M, Dixon, Austin D, Huth, Tyler J, Lohman, Jeremy R
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container_title	Journal of the American Chemical Society
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creator	Stunkard, Lee M Dixon, Austin D Huth, Tyler J Lohman, Jeremy R
description	Malonyl-thioesters are reactive centers of malonyl-CoA and malonyl-S-acyl carrier protein, essential to fatty acid, polyketide and various specialized metabolite biosynthesis. Enzymes that create or use malonyl-thioesters spontaneously hydrolyze or decarboxylate reactants on the crystallographic time frame preventing determination of structure–function relationships. To address this problem, we have synthesized a panel of methylmalonyl-CoA analogs with the carboxylate represented by a sulfonate or nitro and the thioester retained or represented by an ester or amide. Structures of Escherichia coli methylmalonyl-CoA decarboxylase in complex with our analogs affords insight into substrate binding and the catalytic mechanism. Counterintuitively, the negatively charged sulfonate and nitronate functional groups of our analogs bind in an active site hydrophobic pocket. Upon decarboxylation the enolate intermediate is protonated by a histidine preventing CO2-enolate recombination, yielding propionyl-CoA. Activity assays support a histidine catalytic acid and reveal the enzyme displays significant hydrolysis activity. Our structures also provide insight into this hydrolysis activity. Our analogs inhibit decarboxylation/hydrolysis activity with low micromolar K i values. This study sets precedents for using malonyl-CoA analogs with carboxyate isosteres to study the complicated structure–function relationships of acyl-CoA carboxylases, trans-carboxytransferases, malonyltransferases and β-ketoacylsynthases.
doi_str_mv	10.1021/jacs.9b00650
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Upon decarboxylation the enolate intermediate is protonated by a histidine preventing CO2-enolate recombination, yielding propionyl-CoA. Activity assays support a histidine catalytic acid and reveal the enzyme displays significant hydrolysis activity. Our structures also provide insight into this hydrolysis activity. Our analogs inhibit decarboxylation/hydrolysis activity with low micromolar K i values. 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(ANL), Argonne, IL (United States). Advanced Photon Source (APS)</creatorcontrib><title>Sulfonate/Nitro Bearing Methylmalonyl-Thioester Isosteres Applied to Methylmalonyl-CoA Decarboxylase Structure–Function Studies</title><title>Journal of the American Chemical Society</title><addtitle>J. Am. Chem. Soc</addtitle><description>Malonyl-thioesters are reactive centers of malonyl-CoA and malonyl-S-acyl carrier protein, essential to fatty acid, polyketide and various specialized metabolite biosynthesis. Enzymes that create or use malonyl-thioesters spontaneously hydrolyze or decarboxylate reactants on the crystallographic time frame preventing determination of structure–function relationships. To address this problem, we have synthesized a panel of methylmalonyl-CoA analogs with the carboxylate represented by a sulfonate or nitro and the thioester retained or represented by an ester or amide. Structures of Escherichia coli methylmalonyl-CoA decarboxylase in complex with our analogs affords insight into substrate binding and the catalytic mechanism. Counterintuitively, the negatively charged sulfonate and nitronate functional groups of our analogs bind in an active site hydrophobic pocket. Upon decarboxylation the enolate intermediate is protonated by a histidine preventing CO2-enolate recombination, yielding propionyl-CoA. Activity assays support a histidine catalytic acid and reveal the enzyme displays significant hydrolysis activity. Our structures also provide insight into this hydrolysis activity. Our analogs inhibit decarboxylation/hydrolysis activity with low micromolar K i values. 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Soc</addtitle><date>2019-04-03</date><risdate>2019</risdate><volume>141</volume><issue>13</issue><spage>5121</spage><epage>5124</epage><pages>5121-5124</pages><issn>0002-7863</issn><eissn>1520-5126</eissn><abstract>Malonyl-thioesters are reactive centers of malonyl-CoA and malonyl-S-acyl carrier protein, essential to fatty acid, polyketide and various specialized metabolite biosynthesis. Enzymes that create or use malonyl-thioesters spontaneously hydrolyze or decarboxylate reactants on the crystallographic time frame preventing determination of structure–function relationships. To address this problem, we have synthesized a panel of methylmalonyl-CoA analogs with the carboxylate represented by a sulfonate or nitro and the thioester retained or represented by an ester or amide. Structures of Escherichia coli methylmalonyl-CoA decarboxylase in complex with our analogs affords insight into substrate binding and the catalytic mechanism. 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title	Sulfonate/Nitro Bearing Methylmalonyl-Thioester Isosteres Applied to Methylmalonyl-CoA Decarboxylase Structure–Function Studies
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