Interaction of acyl coenzyme A substrates and analogs with pig kidney medium-chain acyl-CoA dehydrogenase

Several alkylthio coenzyme A (CoA) derivatives (from ethyl- to hexadecyl-SCoA) have been synthesized to probe the substrate binding site in the flavoprotein medium-chain acyl-CoA dehydrogenase from pig kidney. All bind to apparently equivalent sites with a stoichiometry of four per tetramer. A plot...

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Veröffentlicht in:	Biochemistry (Easton) 1987-06, Vol.26 (12), p.3704-3710
Hauptverfasser:	Powell, Patricia J, Lau, Sze Mei, Killian, David, Thorpe, Colin
Format:	Artikel
Sprache:	eng
Schlagworte:	Acyl Coenzyme A - chemical synthesis Acyl Coenzyme A - metabolism Acyl Coenzyme A - pharmacology Acyl-CoA Dehydrogenase Acyl-CoA Dehydrogenases - metabolism Animals Kidney - enzymology Kinetics Structure-Activity Relationship Substrate Specificity Swine
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container_title	Biochemistry (Easton)
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creator	Powell, Patricia J Lau, Sze Mei Killian, David Thorpe, Colin
description	Several alkylthio coenzyme A (CoA) derivatives (from ethyl- to hexadecyl-SCoA) have been synthesized to probe the substrate binding site in the flavoprotein medium-chain acyl-CoA dehydrogenase from pig kidney. All bind to apparently equivalent sites with a stoichiometry of four per tetramer. A plot of log Kd vs: hydrocarbon chain length is linear from 2 to 16 carbons with a free energy of binding of 390 cal/methylene group. These data suggest an acyl-binding site of moderate hydrophobicity and imply that the observed substrate specificity of the medium-chain dehydrogenase is not achieved simply by the length of the hydrocarbon binding pocket. Extrapolation of the graph to zero chain length predicts a Kd of 1 mM for the CoA moiety. The difference between this value and the experimentally determined value of 206 microM may be attributed to a contribution from the ionization of the sulfhydryl group in CoASH. The interaction of several eight-carbon intermediates of beta-oxidation (trans-2- and trans-3-octenoyl-CoA and L-3-hydroxy- and 3-ketooctanoyl-CoA) with the dehydrogenase has also been studied. All but the L-3-OH derivative bind tightly to the enzyme (with Kd values in the 50-90 nM range) and are very effective inhibitors of the dehydrogenation of octanoyl-CoA. The trans-3-enoyl analogue produces an immediate, intense, long-wavelength band (lambda max = 820 nm), which probably represents a charge-transfer interaction between the delocalized alpha-carbanion donor and oxidized flavin as the acceptor. The L-3-OH analogue is a reductant of the flavin, yielding 3-ketooctanoyl-CoA.
doi_str_mv	10.1021/bi00386a066
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All bind to apparently equivalent sites with a stoichiometry of four per tetramer. A plot of log Kd vs: hydrocarbon chain length is linear from 2 to 16 carbons with a free energy of binding of 390 cal/methylene group. These data suggest an acyl-binding site of moderate hydrophobicity and imply that the observed substrate specificity of the medium-chain dehydrogenase is not achieved simply by the length of the hydrocarbon binding pocket. Extrapolation of the graph to zero chain length predicts a Kd of 1 mM for the CoA moiety. The difference between this value and the experimentally determined value of 206 microM may be attributed to a contribution from the ionization of the sulfhydryl group in CoASH. The interaction of several eight-carbon intermediates of beta-oxidation (trans-2- and trans-3-octenoyl-CoA and L-3-hydroxy- and 3-ketooctanoyl-CoA) with the dehydrogenase has also been studied. All but the L-3-OH derivative bind tightly to the enzyme (with Kd values in the 50-90 nM range) and are very effective inhibitors of the dehydrogenation of octanoyl-CoA. The trans-3-enoyl analogue produces an immediate, intense, long-wavelength band (lambda max = 820 nm), which probably represents a charge-transfer interaction between the delocalized alpha-carbanion donor and oxidized flavin as the acceptor. 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All bind to apparently equivalent sites with a stoichiometry of four per tetramer. A plot of log Kd vs: hydrocarbon chain length is linear from 2 to 16 carbons with a free energy of binding of 390 cal/methylene group. These data suggest an acyl-binding site of moderate hydrophobicity and imply that the observed substrate specificity of the medium-chain dehydrogenase is not achieved simply by the length of the hydrocarbon binding pocket. Extrapolation of the graph to zero chain length predicts a Kd of 1 mM for the CoA moiety. The difference between this value and the experimentally determined value of 206 microM may be attributed to a contribution from the ionization of the sulfhydryl group in CoASH. The interaction of several eight-carbon intermediates of beta-oxidation (trans-2- and trans-3-octenoyl-CoA and L-3-hydroxy- and 3-ketooctanoyl-CoA) with the dehydrogenase has also been studied. All but the L-3-OH derivative bind tightly to the enzyme (with Kd values in the 50-90 nM range) and are very effective inhibitors of the dehydrogenation of octanoyl-CoA. The trans-3-enoyl analogue produces an immediate, intense, long-wavelength band (lambda max = 820 nm), which probably represents a charge-transfer interaction between the delocalized alpha-carbanion donor and oxidized flavin as the acceptor. The L-3-OH analogue is a reductant of the flavin, yielding 3-ketooctanoyl-CoA.</description><subject>Acyl Coenzyme A - chemical synthesis</subject><subject>Acyl Coenzyme A - metabolism</subject><subject>Acyl Coenzyme A - pharmacology</subject><subject>Acyl-CoA Dehydrogenase</subject><subject>Acyl-CoA Dehydrogenases - metabolism</subject><subject>Animals</subject><subject>Kidney - enzymology</subject><subject>Kinetics</subject><subject>Structure-Activity Relationship</subject><subject>Substrate Specificity</subject><subject>Swine</subject><issn>0006-2960</issn><issn>1520-4995</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>1987</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNptkEFv1DAQha0K1C6lp54r-VQOKHRsJ45zXC0UKipR0eXCxZokk123SbzYiSD8elJ2VXHgMBqN3qc3M4-xcwHvBEhxVToAZTSC1kdsITIJSVoU2Qu2AACdyELDCXsV48M8ppCnx-xY6UykkC2Yu-kHClgNzvfcNxyrqeWVp_731BFf8jiWcQg4UOTY13Nh6zeR_3TDlu_chj-6uqeJd1S7sUuqLbr-r0ey8kte03aqg99Qj5Fes5cNtpHODv2Ufbv-sF59Sm6_fLxZLW8TlEYPSYYAJlWmMNSgUaXRUgsNwuimRESlqYQiK3VNSkhdCBCqUamoSynzmQF1yi73vrvgf4wUB9u5WFHbYk9-jNZAUaSpzGbw7R6sgo8xUGN3wXUYJivAPgVr_wl2pi8OtmM5f_vMHpKc9WSvuzjQr2cZw6PVucozu767t18_f7--z9fv7dOZb_Y8VtE--DHMycb_bv4DYo6Ohw</recordid><startdate>19870616</startdate><enddate>19870616</enddate><creator>Powell, Patricia J</creator><creator>Lau, Sze Mei</creator><creator>Killian, David</creator><creator>Thorpe, Colin</creator><general>American Chemical Society</general><scope>BSCLL</scope><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope></search><sort><creationdate>19870616</creationdate><title>Interaction of acyl coenzyme A substrates and analogs with pig kidney medium-chain acyl-CoA dehydrogenase</title><author>Powell, Patricia J ; Lau, Sze Mei ; Killian, David ; Thorpe, Colin</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-a286t-5a00843898efa83b8626160186fbaaa36eb095b6de312691013f341db22786f03</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>1987</creationdate><topic>Acyl Coenzyme A - chemical synthesis</topic><topic>Acyl Coenzyme A - metabolism</topic><topic>Acyl Coenzyme A - pharmacology</topic><topic>Acyl-CoA Dehydrogenase</topic><topic>Acyl-CoA Dehydrogenases - metabolism</topic><topic>Animals</topic><topic>Kidney - enzymology</topic><topic>Kinetics</topic><topic>Structure-Activity Relationship</topic><topic>Substrate Specificity</topic><topic>Swine</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Powell, Patricia J</creatorcontrib><creatorcontrib>Lau, Sze Mei</creatorcontrib><creatorcontrib>Killian, David</creatorcontrib><creatorcontrib>Thorpe, Colin</creatorcontrib><collection>Istex</collection><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>MEDLINE - Academic</collection><jtitle>Biochemistry (Easton)</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Powell, Patricia J</au><au>Lau, Sze Mei</au><au>Killian, David</au><au>Thorpe, Colin</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Interaction of acyl coenzyme A substrates and analogs with pig kidney medium-chain acyl-CoA dehydrogenase</atitle><jtitle>Biochemistry (Easton)</jtitle><addtitle>Biochemistry</addtitle><date>1987-06-16</date><risdate>1987</risdate><volume>26</volume><issue>12</issue><spage>3704</spage><epage>3710</epage><pages>3704-3710</pages><issn>0006-2960</issn><eissn>1520-4995</eissn><abstract>Several alkylthio coenzyme A (CoA) derivatives (from ethyl- to hexadecyl-SCoA) have been synthesized to probe the substrate binding site in the flavoprotein medium-chain acyl-CoA dehydrogenase from pig kidney. All bind to apparently equivalent sites with a stoichiometry of four per tetramer. A plot of log Kd vs: hydrocarbon chain length is linear from 2 to 16 carbons with a free energy of binding of 390 cal/methylene group. These data suggest an acyl-binding site of moderate hydrophobicity and imply that the observed substrate specificity of the medium-chain dehydrogenase is not achieved simply by the length of the hydrocarbon binding pocket. Extrapolation of the graph to zero chain length predicts a Kd of 1 mM for the CoA moiety. The difference between this value and the experimentally determined value of 206 microM may be attributed to a contribution from the ionization of the sulfhydryl group in CoASH. The interaction of several eight-carbon intermediates of beta-oxidation (trans-2- and trans-3-octenoyl-CoA and L-3-hydroxy- and 3-ketooctanoyl-CoA) with the dehydrogenase has also been studied. All but the L-3-OH derivative bind tightly to the enzyme (with Kd values in the 50-90 nM range) and are very effective inhibitors of the dehydrogenation of octanoyl-CoA. The trans-3-enoyl analogue produces an immediate, intense, long-wavelength band (lambda max = 820 nm), which probably represents a charge-transfer interaction between the delocalized alpha-carbanion donor and oxidized flavin as the acceptor. The L-3-OH analogue is a reductant of the flavin, yielding 3-ketooctanoyl-CoA.</abstract><cop>United States</cop><pub>American Chemical Society</pub><pmid>3651405</pmid><doi>10.1021/bi00386a066</doi><tpages>7</tpages></addata></record>
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subjects	Acyl Coenzyme A - chemical synthesis Acyl Coenzyme A - metabolism Acyl Coenzyme A - pharmacology Acyl-CoA Dehydrogenase Acyl-CoA Dehydrogenases - metabolism Animals Kidney - enzymology Kinetics Structure-Activity Relationship Substrate Specificity Swine
title	Interaction of acyl coenzyme A substrates and analogs with pig kidney medium-chain acyl-CoA dehydrogenase
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