Characterization and modulation by drugs of sheep liver microsomal flavin monooxygenase activity

The flavin monooxygenases (FMO) catalyse the NADPH and oxygen‐dependent oxidation of a wide range of nucleophilic nitrogen‐, sulfur‐, phosphorus‐, and selenium heteroatom‐containing chemicals, drugs, and agricultural agents. In the present study, sheep liver microsomal FMO activity was determined by...

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Veröffentlicht in:	Cell biochemistry and function 2005-07, Vol.23 (4), p.245-251
Hauptverfasser:	Can Demirdöğen, Birsen, Adalı, Orhan
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Sprache:	eng
Schlagworte:	Animals Antidepressive Agents, Tricyclic - pharmacology Antipsychotic Agents - pharmacology Antithyroid Agents - chemistry Antithyroid Agents - metabolism chlorpromazine Chlorpromazine - pharmacology Cholates - pharmacology Detergents - pharmacology drug metabolism flavin monooxygenase imipramine Imipramine - pharmacology Liver - drug effects Liver - metabolism methimazole Methimazole - chemistry Methimazole - metabolism Microsomes, Liver - drug effects Microsomes, Liver - enzymology NADP - chemistry NADP - metabolism Octoxynol - pharmacology Oxidation-Reduction Oxygenases - metabolism Sheep
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description	The flavin monooxygenases (FMO) catalyse the NADPH and oxygen‐dependent oxidation of a wide range of nucleophilic nitrogen‐, sulfur‐, phosphorus‐, and selenium heteroatom‐containing chemicals, drugs, and agricultural agents. In the present study, sheep liver microsomal FMO activity was determined by measuring the S‐oxidation rate of methimazole and the average specific activity obtained from different microsomal preparations was found to be 3.8 ± 1.5 nmol methimazole oxidized min−1 mg−1 microsomal protein (mean ± SE, n = 7). The presence of 0.1% Triton X‐100 in the reaction mixture caused an increase of specific sheep liver microsomal FMO activity towards methimazole to 6.1 ± 1.4 nmol methimazole oxidized min−1 mg−1 microsomal protein (mean ± SE, n = 6). Metabolism of imipramine and chlorpromazine was measured by following the oxidation of cofactor NADPH spectrophotometrically at 340 nm. Sheep liver microsomal FMO activity towards imipramine and chlorpromazine was found to be 10.7 and 12.3 nmol NADPH oxidized min−1 mg−1 microsomal protein, respectively. Characterization of sheep liver enzyme was carried out using methimazole as substrate and the maximum FMO enzyme activity was detected at 37°C and at pH 8.0. The apparent Km value of sheep liver microsomal FMO for methimazole was 0.118 mM. Effects of the detergents Triton X‐100, Cholate, and Emulgen 913, on FMO activity were determined and FMO activity was found to increase with the addition of detergents to the reaction medium. Sheep liver microsomal FMO‐catalysed methimazole oxidation was inhibited by imipramine and chlorpromazine when these drugs were used at high concentrations. Western blot–immunochemical analysis revealed the presence of FMO3 in sheep liver microsomes. Copyright © 2004 John Wiley & Sons, Ltd.
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In the present study, sheep liver microsomal FMO activity was determined by measuring the S‐oxidation rate of methimazole and the average specific activity obtained from different microsomal preparations was found to be 3.8 ± 1.5 nmol methimazole oxidized min−1 mg−1 microsomal protein (mean ± SE, n = 7). The presence of 0.1% Triton X‐100 in the reaction mixture caused an increase of specific sheep liver microsomal FMO activity towards methimazole to 6.1 ± 1.4 nmol methimazole oxidized min−1 mg−1 microsomal protein (mean ± SE, n = 6). Metabolism of imipramine and chlorpromazine was measured by following the oxidation of cofactor NADPH spectrophotometrically at 340 nm. Sheep liver microsomal FMO activity towards imipramine and chlorpromazine was found to be 10.7 and 12.3 nmol NADPH oxidized min−1 mg−1 microsomal protein, respectively. Characterization of sheep liver enzyme was carried out using methimazole as substrate and the maximum FMO enzyme activity was detected at 37°C and at pH 8.0. The apparent Km value of sheep liver microsomal FMO for methimazole was 0.118 mM. Effects of the detergents Triton X‐100, Cholate, and Emulgen 913, on FMO activity were determined and FMO activity was found to increase with the addition of detergents to the reaction medium. Sheep liver microsomal FMO‐catalysed methimazole oxidation was inhibited by imipramine and chlorpromazine when these drugs were used at high concentrations. Western blot–immunochemical analysis revealed the presence of FMO3 in sheep liver microsomes. 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Funct</addtitle><description>The flavin monooxygenases (FMO) catalyse the NADPH and oxygen‐dependent oxidation of a wide range of nucleophilic nitrogen‐, sulfur‐, phosphorus‐, and selenium heteroatom‐containing chemicals, drugs, and agricultural agents. In the present study, sheep liver microsomal FMO activity was determined by measuring the S‐oxidation rate of methimazole and the average specific activity obtained from different microsomal preparations was found to be 3.8 ± 1.5 nmol methimazole oxidized min−1 mg−1 microsomal protein (mean ± SE, n = 7). The presence of 0.1% Triton X‐100 in the reaction mixture caused an increase of specific sheep liver microsomal FMO activity towards methimazole to 6.1 ± 1.4 nmol methimazole oxidized min−1 mg−1 microsomal protein (mean ± SE, n = 6). Metabolism of imipramine and chlorpromazine was measured by following the oxidation of cofactor NADPH spectrophotometrically at 340 nm. Sheep liver microsomal FMO activity towards imipramine and chlorpromazine was found to be 10.7 and 12.3 nmol NADPH oxidized min−1 mg−1 microsomal protein, respectively. Characterization of sheep liver enzyme was carried out using methimazole as substrate and the maximum FMO enzyme activity was detected at 37°C and at pH 8.0. The apparent Km value of sheep liver microsomal FMO for methimazole was 0.118 mM. Effects of the detergents Triton X‐100, Cholate, and Emulgen 913, on FMO activity were determined and FMO activity was found to increase with the addition of detergents to the reaction medium. Sheep liver microsomal FMO‐catalysed methimazole oxidation was inhibited by imipramine and chlorpromazine when these drugs were used at high concentrations. Western blot–immunochemical analysis revealed the presence of FMO3 in sheep liver microsomes. Copyright © 2004 John Wiley & Sons, Ltd.</description><subject>Animals</subject><subject>Antidepressive Agents, Tricyclic - pharmacology</subject><subject>Antipsychotic Agents - pharmacology</subject><subject>Antithyroid Agents - chemistry</subject><subject>Antithyroid Agents - metabolism</subject><subject>chlorpromazine</subject><subject>Chlorpromazine - pharmacology</subject><subject>Cholates - pharmacology</subject><subject>Detergents - pharmacology</subject><subject>drug metabolism</subject><subject>flavin monooxygenase</subject><subject>imipramine</subject><subject>Imipramine - pharmacology</subject><subject>Liver - drug effects</subject><subject>Liver - metabolism</subject><subject>methimazole</subject><subject>Methimazole - chemistry</subject><subject>Methimazole - metabolism</subject><subject>Microsomes, Liver - drug effects</subject><subject>Microsomes, Liver - enzymology</subject><subject>NADP - chemistry</subject><subject>NADP - metabolism</subject><subject>Octoxynol - pharmacology</subject><subject>Oxidation-Reduction</subject><subject>Oxygenases - metabolism</subject><subject>Sheep</subject><issn>0263-6484</issn><issn>1099-0844</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2005</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNp1kM1u1DAURi0EotMBiSdAXqFuUvyfZNmm7RSpggUglsZJrlvTJJ7aybTp09ejiWDF6sq6x8efP4Q-UHJKCWGfm9qeUirkK7SipCwzUgjxGq0IUzxTohBH6DjGP4SQUnHyFh1RKXJOiFqh39WdCaYZIbhnMzo_YDO0uPft1B2O9YzbMN1G7C2OdwBb3LkdBNy7Jvjoe9Nh25mdG9Klwfun-RYGEwEnp9u5cX6H3ljTRXi_zDX6eXX5o7rObr5tvlRnN1nDciYzUfBSSMlEK8uaC0rzllllrSxtK0DlzLQ2faphoATjtmYFiEJBzZq0kZTyNfp08G6Df5ggjrp3sYGuMwP4KWqVlwUR6Zk1OjmA-_wxgNXb4HoTZk2J3repU5t632ZCPy7Oqe6h_Qcu9SUgOwCProP5vyJdnV8twoV3cYSnv7wJ9ykfz6X-9XWj5YWi59-rUm_4CxPtjfM</recordid><startdate>200507</startdate><enddate>200507</enddate><creator>Can Demirdöğen, Birsen</creator><creator>Adalı, Orhan</creator><general>John Wiley & Sons, Ltd</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>200507</creationdate><title>Characterization and modulation by drugs of sheep liver microsomal flavin monooxygenase activity</title><author>Can Demirdöğen, Birsen ; Adalı, Orhan</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c2725-483945524d59b34117d2f6ff59fd4e672adf844c2e6423fb28e486eb2c2ad5113</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2005</creationdate><topic>Animals</topic><topic>Antidepressive Agents, Tricyclic - pharmacology</topic><topic>Antipsychotic Agents - pharmacology</topic><topic>Antithyroid Agents - chemistry</topic><topic>Antithyroid Agents - metabolism</topic><topic>chlorpromazine</topic><topic>Chlorpromazine - pharmacology</topic><topic>Cholates - pharmacology</topic><topic>Detergents - pharmacology</topic><topic>drug metabolism</topic><topic>flavin monooxygenase</topic><topic>imipramine</topic><topic>Imipramine - pharmacology</topic><topic>Liver - drug effects</topic><topic>Liver - metabolism</topic><topic>methimazole</topic><topic>Methimazole - chemistry</topic><topic>Methimazole - metabolism</topic><topic>Microsomes, Liver - drug effects</topic><topic>Microsomes, Liver - enzymology</topic><topic>NADP - chemistry</topic><topic>NADP - metabolism</topic><topic>Octoxynol - pharmacology</topic><topic>Oxidation-Reduction</topic><topic>Oxygenases - metabolism</topic><topic>Sheep</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Can Demirdöğen, Birsen</creatorcontrib><creatorcontrib>Adalı, Orhan</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>Cell biochemistry and function</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Can Demirdöğen, Birsen</au><au>Adalı, Orhan</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Characterization and modulation by drugs of sheep liver microsomal flavin monooxygenase activity</atitle><jtitle>Cell biochemistry and function</jtitle><addtitle>Cell Biochem. Funct</addtitle><date>2005-07</date><risdate>2005</risdate><volume>23</volume><issue>4</issue><spage>245</spage><epage>251</epage><pages>245-251</pages><issn>0263-6484</issn><eissn>1099-0844</eissn><abstract>The flavin monooxygenases (FMO) catalyse the NADPH and oxygen‐dependent oxidation of a wide range of nucleophilic nitrogen‐, sulfur‐, phosphorus‐, and selenium heteroatom‐containing chemicals, drugs, and agricultural agents. In the present study, sheep liver microsomal FMO activity was determined by measuring the S‐oxidation rate of methimazole and the average specific activity obtained from different microsomal preparations was found to be 3.8 ± 1.5 nmol methimazole oxidized min−1 mg−1 microsomal protein (mean ± SE, n = 7). The presence of 0.1% Triton X‐100 in the reaction mixture caused an increase of specific sheep liver microsomal FMO activity towards methimazole to 6.1 ± 1.4 nmol methimazole oxidized min−1 mg−1 microsomal protein (mean ± SE, n = 6). Metabolism of imipramine and chlorpromazine was measured by following the oxidation of cofactor NADPH spectrophotometrically at 340 nm. Sheep liver microsomal FMO activity towards imipramine and chlorpromazine was found to be 10.7 and 12.3 nmol NADPH oxidized min−1 mg−1 microsomal protein, respectively. Characterization of sheep liver enzyme was carried out using methimazole as substrate and the maximum FMO enzyme activity was detected at 37°C and at pH 8.0. The apparent Km value of sheep liver microsomal FMO for methimazole was 0.118 mM. Effects of the detergents Triton X‐100, Cholate, and Emulgen 913, on FMO activity were determined and FMO activity was found to increase with the addition of detergents to the reaction medium. Sheep liver microsomal FMO‐catalysed methimazole oxidation was inhibited by imipramine and chlorpromazine when these drugs were used at high concentrations. Western blot–immunochemical analysis revealed the presence of FMO3 in sheep liver microsomes. Copyright © 2004 John Wiley & Sons, Ltd.</abstract><cop>Chichester, UK</cop><pub>John Wiley & Sons, Ltd</pub><pmid>15473006</pmid><doi>10.1002/cbf.1145</doi><tpages>7</tpages></addata></record>
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subjects	Animals Antidepressive Agents, Tricyclic - pharmacology Antipsychotic Agents - pharmacology Antithyroid Agents - chemistry Antithyroid Agents - metabolism chlorpromazine Chlorpromazine - pharmacology Cholates - pharmacology Detergents - pharmacology drug metabolism flavin monooxygenase imipramine Imipramine - pharmacology Liver - drug effects Liver - metabolism methimazole Methimazole - chemistry Methimazole - metabolism Microsomes, Liver - drug effects Microsomes, Liver - enzymology NADP - chemistry NADP - metabolism Octoxynol - pharmacology Oxidation-Reduction Oxygenases - metabolism Sheep
title	Characterization and modulation by drugs of sheep liver microsomal flavin monooxygenase activity
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