Nuclear Magnetic Resonance Studies Demonstrate Differences in the Interaction of Retinoic Acid with Two Highly Homologous Cellular Retinoic Acid Binding Proteins

Cellular retinoic acid binding protein-I (CRABP-I) and cellular retinoic acid binding protein-II (CRABP-II) are highly homologous, 15 kDa proteins which bind all-trans-retinoic acid. In the adult, CRABP-II is expressed predominately in the epidermis, while CRAPB-I is expressed in a variety of tissue...

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Veröffentlicht in:	Biochemistry (Easton) 1995-11, Vol.34 (47), p.15564-15573
Hauptverfasser:	Norris, Andrew W, Rong, Ding, d'Avignon, D. Andre, Rosenberger, Michael, Tasaki, Kenzabu, Li, Ellen
Format:	Artikel
Sprache:	eng
Schlagworte:	Amino Acid Sequence Magnetic Resonance Spectroscopy Models, Molecular Molecular Conformation Molecular Sequence Data Receptors, Retinoic Acid - chemistry Receptors, Retinoic Acid - metabolism Sequence Alignment Tretinoin - chemistry Tretinoin - metabolism
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container_end_page	15573
container_issue	47
container_start_page	15564
container_title	Biochemistry (Easton)
container_volume	34
creator	Norris, Andrew W Rong, Ding d'Avignon, D. Andre Rosenberger, Michael Tasaki, Kenzabu Li, Ellen
description	Cellular retinoic acid binding protein-I (CRABP-I) and cellular retinoic acid binding protein-II (CRABP-II) are highly homologous, 15 kDa proteins which bind all-trans-retinoic acid. In the adult, CRABP-II is expressed predominately in the epidermis, while CRAPB-I is expressed in a variety of tissues. To obtain structural information which could aid the design of more selective ligands, isotope-directed NMR methods were employed to observe the CRABP-bound conformation of 13C-labeled retinoic acid and to identify its contact points with neighboring amino acids. Analysis of HMQC, HMQC-TOCSY, and 13C-TOCSY-REVINEPT on CRABP-bound (2,3,6,7,8,9,10,11,19-13C)- and (1,4,5,8,9,16, 17,18,19-13C)-all trans-retinoic acid allowed the unambiguous assignment of all labeled protons and their attached 13C resonances. The volumes of 16 olefinic proton-methyl NOE cross-peaks measured from 30-ms 13C-(omega 2)-filtered 1H NOESY experiments were used to determine the conformations about the 6-, 8-, and 10-single bonds of the retinoic acid polyene chain. These spectra show qualitatively distinct NOE patterns for the two CRABPs. Measured cross-peak volumes for CRABP-II bound retinoic acid were well predicted by a single, static conformational having a 6-s torsion angle of -60 degrees skewed from a cis conformation. In contrast, for CRABP-I no single, static conformation was able to match the pattern of cross-peaks, suggesting motion about the 6-s bond. The measured cross-peaks were best described by 8-s and 10-s torsion angles of 180 degrees +/- 30 degrees, a trans configuration, for both proteins. The pattern of intermolecular NOESY cross-peaks between 13C-labeled protons in the ring portion of retinoic acid and protein protons were different between CRABP-I and CRABP-II. These differences coincide well with nearby amino acid substitutions in the recently reported X-ray structures of crystalline CRABP-I and CRABP-II and may assist rational design of selective ligands.
doi_str_mv	10.1021/bi00047a023
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Andre ; Rosenberger, Michael ; Tasaki, Kenzabu ; Li, Ellen</creator><creatorcontrib>Norris, Andrew W ; Rong, Ding ; d'Avignon, D. Andre ; Rosenberger, Michael ; Tasaki, Kenzabu ; Li, Ellen</creatorcontrib><description>Cellular retinoic acid binding protein-I (CRABP-I) and cellular retinoic acid binding protein-II (CRABP-II) are highly homologous, 15 kDa proteins which bind all-trans-retinoic acid. In the adult, CRABP-II is expressed predominately in the epidermis, while CRAPB-I is expressed in a variety of tissues. To obtain structural information which could aid the design of more selective ligands, isotope-directed NMR methods were employed to observe the CRABP-bound conformation of 13C-labeled retinoic acid and to identify its contact points with neighboring amino acids. Analysis of HMQC, HMQC-TOCSY, and 13C-TOCSY-REVINEPT on CRABP-bound (2,3,6,7,8,9,10,11,19-13C)- and (1,4,5,8,9,16, 17,18,19-13C)-all trans-retinoic acid allowed the unambiguous assignment of all labeled protons and their attached 13C resonances. The volumes of 16 olefinic proton-methyl NOE cross-peaks measured from 30-ms 13C-(omega 2)-filtered 1H NOESY experiments were used to determine the conformations about the 6-, 8-, and 10-single bonds of the retinoic acid polyene chain. These spectra show qualitatively distinct NOE patterns for the two CRABPs. Measured cross-peak volumes for CRABP-II bound retinoic acid were well predicted by a single, static conformational having a 6-s torsion angle of -60 degrees skewed from a cis conformation. In contrast, for CRABP-I no single, static conformation was able to match the pattern of cross-peaks, suggesting motion about the 6-s bond. The measured cross-peaks were best described by 8-s and 10-s torsion angles of 180 degrees +/- 30 degrees, a trans configuration, for both proteins. The pattern of intermolecular NOESY cross-peaks between 13C-labeled protons in the ring portion of retinoic acid and protein protons were different between CRABP-I and CRABP-II. 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Andre</creatorcontrib><creatorcontrib>Rosenberger, Michael</creatorcontrib><creatorcontrib>Tasaki, Kenzabu</creatorcontrib><creatorcontrib>Li, Ellen</creatorcontrib><title>Nuclear Magnetic Resonance Studies Demonstrate Differences in the Interaction of Retinoic Acid with Two Highly Homologous Cellular Retinoic Acid Binding Proteins</title><title>Biochemistry (Easton)</title><addtitle>Biochemistry</addtitle><description>Cellular retinoic acid binding protein-I (CRABP-I) and cellular retinoic acid binding protein-II (CRABP-II) are highly homologous, 15 kDa proteins which bind all-trans-retinoic acid. In the adult, CRABP-II is expressed predominately in the epidermis, while CRAPB-I is expressed in a variety of tissues. To obtain structural information which could aid the design of more selective ligands, isotope-directed NMR methods were employed to observe the CRABP-bound conformation of 13C-labeled retinoic acid and to identify its contact points with neighboring amino acids. Analysis of HMQC, HMQC-TOCSY, and 13C-TOCSY-REVINEPT on CRABP-bound (2,3,6,7,8,9,10,11,19-13C)- and (1,4,5,8,9,16, 17,18,19-13C)-all trans-retinoic acid allowed the unambiguous assignment of all labeled protons and their attached 13C resonances. The volumes of 16 olefinic proton-methyl NOE cross-peaks measured from 30-ms 13C-(omega 2)-filtered 1H NOESY experiments were used to determine the conformations about the 6-, 8-, and 10-single bonds of the retinoic acid polyene chain. These spectra show qualitatively distinct NOE patterns for the two CRABPs. Measured cross-peak volumes for CRABP-II bound retinoic acid were well predicted by a single, static conformational having a 6-s torsion angle of -60 degrees skewed from a cis conformation. In contrast, for CRABP-I no single, static conformation was able to match the pattern of cross-peaks, suggesting motion about the 6-s bond. The measured cross-peaks were best described by 8-s and 10-s torsion angles of 180 degrees +/- 30 degrees, a trans configuration, for both proteins. The pattern of intermolecular NOESY cross-peaks between 13C-labeled protons in the ring portion of retinoic acid and protein protons were different between CRABP-I and CRABP-II. These differences coincide well with nearby amino acid substitutions in the recently reported X-ray structures of crystalline CRABP-I and CRABP-II and may assist rational design of selective ligands.</description><subject>Amino Acid Sequence</subject><subject>Magnetic Resonance Spectroscopy</subject><subject>Models, Molecular</subject><subject>Molecular Conformation</subject><subject>Molecular Sequence Data</subject><subject>Receptors, Retinoic Acid - chemistry</subject><subject>Receptors, Retinoic Acid - metabolism</subject><subject>Sequence Alignment</subject><subject>Tretinoin - chemistry</subject><subject>Tretinoin - metabolism</subject><issn>0006-2960</issn><issn>1520-4995</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>1995</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNqFkUFv1DAQhS0EKtvCiTOST3BAobbjxPGx3UK30hZKu5wtx5nsuiR2sR21_Tn807raVUUlJE4jzfvmzWgeQu8o-UwJo4etJYRwoQkrX6AZrRgpuJTVSzTL_bpgsiav0X6M148YEXwP7QkuWVXJGfrzbTID6IDP9dpBsgZfQvROOwP4Kk2dhYhPYPQupqAT4BPb9xAgyxFbh9MG8JlLELRJ1jvs-zyfrPPZ6MjYDt_atMGrW48Xdr0Z7vHCj37waz9FPIdhmIa8-vnEsXWddWt8EXwC6-Ib9KrXQ4S3u3qAfn79spoviuX307P50bLQJSGp6EWjoe4J741ktOVtC1zWhjdAoSEdZ4KUhvKu1K3h3Ii6MhUYQqVh0NWmKQ_Qh63vTfC_J4hJjTaafKN2kM9VQtSNrBn7L0gFYURIkcFPW9AEH2OAXt0EO-pwryhRj8mpv5LL9Pud7dSO0D2xu6iyXmx1GxPcPck6_FK1KEWlVhdXqjkml-dsWaofmf-45bWJ6tpPweXv_XPzA6uLsaQ</recordid><startdate>19951101</startdate><enddate>19951101</enddate><creator>Norris, Andrew W</creator><creator>Rong, Ding</creator><creator>d'Avignon, D. 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Andre ; Rosenberger, Michael ; Tasaki, Kenzabu ; Li, Ellen</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-a300t-f78ae6f04fc921b4bbe496c48e1e80d42703c14d3abc44c765c5ec019c2ed6c83</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>1995</creationdate><topic>Amino Acid Sequence</topic><topic>Magnetic Resonance Spectroscopy</topic><topic>Models, Molecular</topic><topic>Molecular Conformation</topic><topic>Molecular Sequence Data</topic><topic>Receptors, Retinoic Acid - chemistry</topic><topic>Receptors, Retinoic Acid - metabolism</topic><topic>Sequence Alignment</topic><topic>Tretinoin - chemistry</topic><topic>Tretinoin - metabolism</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Norris, Andrew W</creatorcontrib><creatorcontrib>Rong, Ding</creatorcontrib><creatorcontrib>d'Avignon, D. Andre</creatorcontrib><creatorcontrib>Rosenberger, Michael</creatorcontrib><creatorcontrib>Tasaki, Kenzabu</creatorcontrib><creatorcontrib>Li, Ellen</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>Nucleic Acids Abstracts</collection><collection>MEDLINE - Academic</collection><jtitle>Biochemistry (Easton)</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Norris, Andrew W</au><au>Rong, Ding</au><au>d'Avignon, D. Andre</au><au>Rosenberger, Michael</au><au>Tasaki, Kenzabu</au><au>Li, Ellen</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Nuclear Magnetic Resonance Studies Demonstrate Differences in the Interaction of Retinoic Acid with Two Highly Homologous Cellular Retinoic Acid Binding Proteins</atitle><jtitle>Biochemistry (Easton)</jtitle><addtitle>Biochemistry</addtitle><date>1995-11-01</date><risdate>1995</risdate><volume>34</volume><issue>47</issue><spage>15564</spage><epage>15573</epage><pages>15564-15573</pages><issn>0006-2960</issn><eissn>1520-4995</eissn><abstract>Cellular retinoic acid binding protein-I (CRABP-I) and cellular retinoic acid binding protein-II (CRABP-II) are highly homologous, 15 kDa proteins which bind all-trans-retinoic acid. In the adult, CRABP-II is expressed predominately in the epidermis, while CRAPB-I is expressed in a variety of tissues. To obtain structural information which could aid the design of more selective ligands, isotope-directed NMR methods were employed to observe the CRABP-bound conformation of 13C-labeled retinoic acid and to identify its contact points with neighboring amino acids. Analysis of HMQC, HMQC-TOCSY, and 13C-TOCSY-REVINEPT on CRABP-bound (2,3,6,7,8,9,10,11,19-13C)- and (1,4,5,8,9,16, 17,18,19-13C)-all trans-retinoic acid allowed the unambiguous assignment of all labeled protons and their attached 13C resonances. The volumes of 16 olefinic proton-methyl NOE cross-peaks measured from 30-ms 13C-(omega 2)-filtered 1H NOESY experiments were used to determine the conformations about the 6-, 8-, and 10-single bonds of the retinoic acid polyene chain. These spectra show qualitatively distinct NOE patterns for the two CRABPs. Measured cross-peak volumes for CRABP-II bound retinoic acid were well predicted by a single, static conformational having a 6-s torsion angle of -60 degrees skewed from a cis conformation. In contrast, for CRABP-I no single, static conformation was able to match the pattern of cross-peaks, suggesting motion about the 6-s bond. The measured cross-peaks were best described by 8-s and 10-s torsion angles of 180 degrees +/- 30 degrees, a trans configuration, for both proteins. The pattern of intermolecular NOESY cross-peaks between 13C-labeled protons in the ring portion of retinoic acid and protein protons were different between CRABP-I and CRABP-II. These differences coincide well with nearby amino acid substitutions in the recently reported X-ray structures of crystalline CRABP-I and CRABP-II and may assist rational design of selective ligands.</abstract><cop>United States</cop><pub>American Chemical Society</pub><pmid>7492559</pmid><doi>10.1021/bi00047a023</doi><tpages>10</tpages></addata></record>
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subjects	Amino Acid Sequence Magnetic Resonance Spectroscopy Models, Molecular Molecular Conformation Molecular Sequence Data Receptors, Retinoic Acid - chemistry Receptors, Retinoic Acid - metabolism Sequence Alignment Tretinoin - chemistry Tretinoin - metabolism
title	Nuclear Magnetic Resonance Studies Demonstrate Differences in the Interaction of Retinoic Acid with Two Highly Homologous Cellular Retinoic Acid Binding Proteins
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