Clinical, structural and functional implications of mutations and polymorphisms in human NADPH P450 oxidoreductase

Cytochrome P450 proteins are involved in metabolism of drugs and xenobiotics. In the endoplasmic reticulum a single nicotinamide adenine dinucleotide phosphate (NADPH) P450 oxidoreductase (POR) supplies electrons to all microsomal P450s for catalytic activity. POR is a flavoprotein that contains bot...

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Veröffentlicht in:	Fundamental & clinical pharmacology 2007-08, Vol.21 (4), p.399-410
Hauptverfasser:	Flück, Christa E., Nicolo, Catherine, Pandey, Amit V.
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Sprache:	eng
Schlagworte:	Abnormalities, Multiple - enzymology Abnormalities, Multiple - genetics Adrenal Hyperplasia, Congenital - enzymology Adrenal Hyperplasia, Congenital - genetics Antley-Bixler syndrome Binding Sites Biological and medical sciences cytochrome P450 enzyme kinetics Flavin Mononucleotide - metabolism Flavin-Adenine Dinucleotide - metabolism Genetic Variation Humans Medical sciences Models, Molecular Mutation NADP - metabolism NADPH-Ferrihemoprotein Reductase - chemistry NADPH-Ferrihemoprotein Reductase - genetics NADPH-Ferrihemoprotein Reductase - metabolism P450 oxidoreductase Pharmacology. Drug treatments Polymorphism, Genetic polymorphisms Protein Conformation sex steroids steroidogenesis Steroids - biosynthesis
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creator	Flück, Christa E. Nicolo, Catherine Pandey, Amit V.
description	Cytochrome P450 proteins are involved in metabolism of drugs and xenobiotics. In the endoplasmic reticulum a single nicotinamide adenine dinucleotide phosphate (NADPH) P450 oxidoreductase (POR) supplies electrons to all microsomal P450s for catalytic activity. POR is a flavoprotein that contains both flavin mononucleotide and flavin adenine dinucleotide as cofactors and uses NADPH as the source of electrons. We have recently reported a number of POR mutations in the patients with disordered steroidogenesis. In the first report we had described missense mutations (A287P, R457H, V492E, C569Y, and V608F) identified in four patients with defects in steroid production. Each POR variant was produced as recombinant N‐27 form of the enzyme in bacteria and as full‐length form in yeast. Membranes from bacteria or yeast expressing normal or variant POR were purified and their activities were characterized in cytochrome c and CYP17A1 assays. Later we have published a larger study that described a whole range of POR mutations and characterized the mutants/polymorphisms A115V, T142A, M263V, Y459H, A503V, G539R, L565P, R616X, V631I, and F646del from the sequencing of patient DNA. We also studied POR variants Y181D, P228L, R316W, G413S, and G504R that were available in public databases or published literature. Three‐dimensional structure of rat POR is known and we have used this structure to deduce the structure–function correlation of POR mutations in human. The missense mutations found in patients with disordered steroidogenesis are generally in the co‐factor binding and functionally important domains of POR and the apparent polymorphisms are found in regions with lesser structural importance. A variation in POR can alter the activity of all microsomal P450s, and therefore, can affect the metabolism of drugs and xenobiotics even when the P450s involved are otherwise normal. It is important to study the genetic and biochemical basis of POR variants in human population to gain information about possible differences in P450 mediated reactions among the individuals carrying a variant or polymorphic form of POR that could impact their metabolism.
doi_str_mv	10.1111/j.1472-8206.2007.00520.x
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In the endoplasmic reticulum a single nicotinamide adenine dinucleotide phosphate (NADPH) P450 oxidoreductase (POR) supplies electrons to all microsomal P450s for catalytic activity. POR is a flavoprotein that contains both flavin mononucleotide and flavin adenine dinucleotide as cofactors and uses NADPH as the source of electrons. We have recently reported a number of POR mutations in the patients with disordered steroidogenesis. In the first report we had described missense mutations (A287P, R457H, V492E, C569Y, and V608F) identified in four patients with defects in steroid production. Each POR variant was produced as recombinant N‐27 form of the enzyme in bacteria and as full‐length form in yeast. Membranes from bacteria or yeast expressing normal or variant POR were purified and their activities were characterized in cytochrome c and CYP17A1 assays. Later we have published a larger study that described a whole range of POR mutations and characterized the mutants/polymorphisms A115V, T142A, M263V, Y459H, A503V, G539R, L565P, R616X, V631I, and F646del from the sequencing of patient DNA. We also studied POR variants Y181D, P228L, R316W, G413S, and G504R that were available in public databases or published literature. Three‐dimensional structure of rat POR is known and we have used this structure to deduce the structure–function correlation of POR mutations in human. The missense mutations found in patients with disordered steroidogenesis are generally in the co‐factor binding and functionally important domains of POR and the apparent polymorphisms are found in regions with lesser structural importance. A variation in POR can alter the activity of all microsomal P450s, and therefore, can affect the metabolism of drugs and xenobiotics even when the P450s involved are otherwise normal. 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In the endoplasmic reticulum a single nicotinamide adenine dinucleotide phosphate (NADPH) P450 oxidoreductase (POR) supplies electrons to all microsomal P450s for catalytic activity. POR is a flavoprotein that contains both flavin mononucleotide and flavin adenine dinucleotide as cofactors and uses NADPH as the source of electrons. We have recently reported a number of POR mutations in the patients with disordered steroidogenesis. In the first report we had described missense mutations (A287P, R457H, V492E, C569Y, and V608F) identified in four patients with defects in steroid production. Each POR variant was produced as recombinant N‐27 form of the enzyme in bacteria and as full‐length form in yeast. Membranes from bacteria or yeast expressing normal or variant POR were purified and their activities were characterized in cytochrome c and CYP17A1 assays. Later we have published a larger study that described a whole range of POR mutations and characterized the mutants/polymorphisms A115V, T142A, M263V, Y459H, A503V, G539R, L565P, R616X, V631I, and F646del from the sequencing of patient DNA. We also studied POR variants Y181D, P228L, R316W, G413S, and G504R that were available in public databases or published literature. Three‐dimensional structure of rat POR is known and we have used this structure to deduce the structure–function correlation of POR mutations in human. The missense mutations found in patients with disordered steroidogenesis are generally in the co‐factor binding and functionally important domains of POR and the apparent polymorphisms are found in regions with lesser structural importance. A variation in POR can alter the activity of all microsomal P450s, and therefore, can affect the metabolism of drugs and xenobiotics even when the P450s involved are otherwise normal. It is important to study the genetic and biochemical basis of POR variants in human population to gain information about possible differences in P450 mediated reactions among the individuals carrying a variant or polymorphic form of POR that could impact their metabolism.</description><subject>Abnormalities, Multiple - enzymology</subject><subject>Abnormalities, Multiple - genetics</subject><subject>Adrenal Hyperplasia, Congenital - enzymology</subject><subject>Adrenal Hyperplasia, Congenital - genetics</subject><subject>Antley-Bixler syndrome</subject><subject>Binding Sites</subject><subject>Biological and medical sciences</subject><subject>cytochrome P450</subject><subject>enzyme kinetics</subject><subject>Flavin Mononucleotide - metabolism</subject><subject>Flavin-Adenine Dinucleotide - metabolism</subject><subject>Genetic Variation</subject><subject>Humans</subject><subject>Medical sciences</subject><subject>Models, Molecular</subject><subject>Mutation</subject><subject>NADP - metabolism</subject><subject>NADPH-Ferrihemoprotein Reductase - chemistry</subject><subject>NADPH-Ferrihemoprotein Reductase - genetics</subject><subject>NADPH-Ferrihemoprotein Reductase - metabolism</subject><subject>P450 oxidoreductase</subject><subject>Pharmacology. Drug treatments</subject><subject>Polymorphism, Genetic</subject><subject>polymorphisms</subject><subject>Protein Conformation</subject><subject>sex steroids</subject><subject>steroidogenesis</subject><subject>Steroids - biosynthesis</subject><issn>0767-3981</issn><issn>1472-8206</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2007</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNqNkU9v1DAQxS0EokvhKyBf4ETC2Ek8tsSl2tItqCp7KELiYhnHVr3kz2InYvfbk7BRewRf7Cf_3ow9jxDKIGfTer_LWYk8kxxEzgEwB6g45IcnZPVw8ZSsAAVmhZLsjLxIaQfAEJh4Ts4YiqJiqFYkrpvQBWuadzQNcbTDGE1DTVdTP3Z2CH03ydDum4mZVaK9p-04LGIG931zbPu4vw-pTTR09H5sTUdvLy6313RbVkD7Q6j76OqpvEnuJXnmTZPcq2U_J1-vPt6tr7ObL5tP64ubzFYFg8xzZ6yVlUNV1eiF8zUWkhtWqlK6EsB7D1AWylgEMAJBKeYtr0ohreCyOCdvT3X3sf81ujToNiTrmsZ0rh-TRsCCI_B_gkxJRKaKCZQn0MY-pei83sfQmnjUDPQcjN7pef56nr-eg9F_g9GHyfp66TH-aF39aFySmIA3C2DSFIePprMhPXJScc5x_tWHE_c7NO743w_QV-vtdJjs2cke0uAOD3YTf2qBBVb62-1Gi0uxvfu8Qf29-ANk0bhY</recordid><startdate>200708</startdate><enddate>200708</enddate><creator>Flück, Christa E.</creator><creator>Nicolo, Catherine</creator><creator>Pandey, Amit V.</creator><general>Blackwell Publishing Ltd</general><general>Blackwell</general><scope>BSCLL</scope><scope>IQODW</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>7QL</scope><scope>C1K</scope><scope>7X8</scope></search><sort><creationdate>200708</creationdate><title>Clinical, structural and functional implications of mutations and polymorphisms in human NADPH P450 oxidoreductase</title><author>Flück, Christa E. ; Nicolo, Catherine ; Pandey, Amit V.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c5310-f2eacc85e795d7f6efd7382a14948e400fff00439ac700a670991fc25468c6283</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2007</creationdate><topic>Abnormalities, Multiple - enzymology</topic><topic>Abnormalities, Multiple - genetics</topic><topic>Adrenal Hyperplasia, Congenital - enzymology</topic><topic>Adrenal Hyperplasia, Congenital - genetics</topic><topic>Antley-Bixler syndrome</topic><topic>Binding Sites</topic><topic>Biological and medical sciences</topic><topic>cytochrome P450</topic><topic>enzyme kinetics</topic><topic>Flavin Mononucleotide - metabolism</topic><topic>Flavin-Adenine Dinucleotide - metabolism</topic><topic>Genetic Variation</topic><topic>Humans</topic><topic>Medical sciences</topic><topic>Models, Molecular</topic><topic>Mutation</topic><topic>NADP - metabolism</topic><topic>NADPH-Ferrihemoprotein Reductase - chemistry</topic><topic>NADPH-Ferrihemoprotein Reductase - genetics</topic><topic>NADPH-Ferrihemoprotein Reductase - metabolism</topic><topic>P450 oxidoreductase</topic><topic>Pharmacology. Drug treatments</topic><topic>Polymorphism, Genetic</topic><topic>polymorphisms</topic><topic>Protein Conformation</topic><topic>sex steroids</topic><topic>steroidogenesis</topic><topic>Steroids - biosynthesis</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Flück, Christa E.</creatorcontrib><creatorcontrib>Nicolo, Catherine</creatorcontrib><creatorcontrib>Pandey, Amit V.</creatorcontrib><collection>Istex</collection><collection>Pascal-Francis</collection><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>Bacteriology Abstracts (Microbiology B)</collection><collection>Environmental Sciences and Pollution Management</collection><collection>MEDLINE - Academic</collection><jtitle>Fundamental & clinical pharmacology</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Flück, Christa E.</au><au>Nicolo, Catherine</au><au>Pandey, Amit V.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Clinical, structural and functional implications of mutations and polymorphisms in human NADPH P450 oxidoreductase</atitle><jtitle>Fundamental & clinical pharmacology</jtitle><addtitle>Fundam Clin Pharmacol</addtitle><date>2007-08</date><risdate>2007</risdate><volume>21</volume><issue>4</issue><spage>399</spage><epage>410</epage><pages>399-410</pages><issn>0767-3981</issn><eissn>1472-8206</eissn><coden>FCPHEZ</coden><abstract>Cytochrome P450 proteins are involved in metabolism of drugs and xenobiotics. In the endoplasmic reticulum a single nicotinamide adenine dinucleotide phosphate (NADPH) P450 oxidoreductase (POR) supplies electrons to all microsomal P450s for catalytic activity. POR is a flavoprotein that contains both flavin mononucleotide and flavin adenine dinucleotide as cofactors and uses NADPH as the source of electrons. We have recently reported a number of POR mutations in the patients with disordered steroidogenesis. In the first report we had described missense mutations (A287P, R457H, V492E, C569Y, and V608F) identified in four patients with defects in steroid production. Each POR variant was produced as recombinant N‐27 form of the enzyme in bacteria and as full‐length form in yeast. Membranes from bacteria or yeast expressing normal or variant POR were purified and their activities were characterized in cytochrome c and CYP17A1 assays. Later we have published a larger study that described a whole range of POR mutations and characterized the mutants/polymorphisms A115V, T142A, M263V, Y459H, A503V, G539R, L565P, R616X, V631I, and F646del from the sequencing of patient DNA. We also studied POR variants Y181D, P228L, R316W, G413S, and G504R that were available in public databases or published literature. Three‐dimensional structure of rat POR is known and we have used this structure to deduce the structure–function correlation of POR mutations in human. The missense mutations found in patients with disordered steroidogenesis are generally in the co‐factor binding and functionally important domains of POR and the apparent polymorphisms are found in regions with lesser structural importance. A variation in POR can alter the activity of all microsomal P450s, and therefore, can affect the metabolism of drugs and xenobiotics even when the P450s involved are otherwise normal. It is important to study the genetic and biochemical basis of POR variants in human population to gain information about possible differences in P450 mediated reactions among the individuals carrying a variant or polymorphic form of POR that could impact their metabolism.</abstract><cop>Oxford, UK</cop><pub>Blackwell Publishing Ltd</pub><pmid>17635179</pmid><doi>10.1111/j.1472-8206.2007.00520.x</doi><tpages>12</tpages></addata></record>
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subjects	Abnormalities, Multiple - enzymology Abnormalities, Multiple - genetics Adrenal Hyperplasia, Congenital - enzymology Adrenal Hyperplasia, Congenital - genetics Antley-Bixler syndrome Binding Sites Biological and medical sciences cytochrome P450 enzyme kinetics Flavin Mononucleotide - metabolism Flavin-Adenine Dinucleotide - metabolism Genetic Variation Humans Medical sciences Models, Molecular Mutation NADP - metabolism NADPH-Ferrihemoprotein Reductase - chemistry NADPH-Ferrihemoprotein Reductase - genetics NADPH-Ferrihemoprotein Reductase - metabolism P450 oxidoreductase Pharmacology. Drug treatments Polymorphism, Genetic polymorphisms Protein Conformation sex steroids steroidogenesis Steroids - biosynthesis
title	Clinical, structural and functional implications of mutations and polymorphisms in human NADPH P450 oxidoreductase
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