Shedding of somatic angiotensin-converting enzyme (ACE) is inefficient compared with testis ACE despite cleavage at identical stalk sites

The somatic and testis isoforms of angiotensin-converting enzyme (ACE) are both C-terminally anchored ectoproteins that are shed by an unidentified secretase. Although testis and somatic ACE both share the same stalk and membrane domains the latter was reported to be shed inefficiently compared with...

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Veröffentlicht in:	Biochemical journal 2000-05, Vol.347 Pt 3 (3), p.711-718
Hauptverfasser:	Woodman, Z L, Oppong, S Y, Cook, S, Hooper, N M, Schwager, S L, Brandt, W F, Ehlers, M R, Sturrock, E D
Format:	Artikel
Sprache:	eng
Schlagworte:	Amino Acid Sequence Animals Antibodies - immunology Cell Membrane - metabolism CHO Cells Cricetinae Endopeptidases - metabolism Enzyme Activation - drug effects Humans Isoenzymes - blood Isoenzymes - chemistry Isoenzymes - genetics Isoenzymes - metabolism Kidney - cytology Kidney - enzymology Kinetics Male Metalloendopeptidases - metabolism Molecular Sequence Data Peptide Fragments - blood Peptide Fragments - chemistry Peptide Fragments - immunology Peptide Fragments - metabolism Peptidyl-Dipeptidase A - blood Peptidyl-Dipeptidase A - chemistry Peptidyl-Dipeptidase A - genetics Peptidyl-Dipeptidase A - metabolism Phorbol 12,13-Dibutyrate - pharmacology Solubility Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization Substrate Specificity Swine Testis - enzymology
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container_issue	3
container_start_page	711
container_title	Biochemical journal
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creator	Woodman, Z L Oppong, S Y Cook, S Hooper, N M Schwager, S L Brandt, W F Ehlers, M R Sturrock, E D
description	The somatic and testis isoforms of angiotensin-converting enzyme (ACE) are both C-terminally anchored ectoproteins that are shed by an unidentified secretase. Although testis and somatic ACE both share the same stalk and membrane domains the latter was reported to be shed inefficiently compared with testis ACE, and this was ascribed to cleavage at an alternative site [Beldent, Michaud, Bonnefoy, Chauvet and Corvol (1995) J. Biol. Chem. 270, 28962-28969]. These differences constitute a useful model system of the regulation and substrate preferences of the ACE secretase, and hence we investigated this further. In transfected Chinese hamster ovary cells, human somatic ACE (hsACE) was indeed shed less efficiently than human testis ACE, and shedding of somatic ACE responded poorly to phorbol ester activation. However, using several analytical techniques, we found no evidence that the somatic ACE cleavage site differed from that characterized in testis ACE. First, anti-peptide antibodies raised to specific sequences on either side of the reported cleavage site (Arg(1137)/Leu(1138)) clearly recognized soluble porcine somatic ACE, indicating that cleavage was C-terminal to Arg(1137). Second, a competitive ELISA gave superimposable curves for porcine plasma ACE, secretase-cleaved porcine somatic ACE (eACE), and trypsin-cleaved ACE, suggesting similar C-terminal sequences. Third, mass-spectral analyses of digests of released soluble hsACE or of eACE enabled precise assignments of the C-termini, in each case to Arg(1203). These data indicated that soluble human and porcine somatic ACE, whether generated in vivo or in vitro, have C-termini consistent with cleavage at a single site, the Arg(1203)/Ser(1204) bond, identical with the Arg(627)/Ser(628) site in testis ACE. In conclusion, the inefficient release of somatic ACE is not due to cleavage at an alternative stalk site, but instead supports the hypothesis that the testis ACE ectodomain contains a motif that activates shedding, which is occluded by the additional domain found in somatic ACE.
doi_str_mv	10.1042/0264-6021:3470711
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Although testis and somatic ACE both share the same stalk and membrane domains the latter was reported to be shed inefficiently compared with testis ACE, and this was ascribed to cleavage at an alternative site [Beldent, Michaud, Bonnefoy, Chauvet and Corvol (1995) J. Biol. Chem. 270, 28962-28969]. These differences constitute a useful model system of the regulation and substrate preferences of the ACE secretase, and hence we investigated this further. In transfected Chinese hamster ovary cells, human somatic ACE (hsACE) was indeed shed less efficiently than human testis ACE, and shedding of somatic ACE responded poorly to phorbol ester activation. However, using several analytical techniques, we found no evidence that the somatic ACE cleavage site differed from that characterized in testis ACE. First, anti-peptide antibodies raised to specific sequences on either side of the reported cleavage site (Arg(1137)/Leu(1138)) clearly recognized soluble porcine somatic ACE, indicating that cleavage was C-terminal to Arg(1137). Second, a competitive ELISA gave superimposable curves for porcine plasma ACE, secretase-cleaved porcine somatic ACE (eACE), and trypsin-cleaved ACE, suggesting similar C-terminal sequences. Third, mass-spectral analyses of digests of released soluble hsACE or of eACE enabled precise assignments of the C-termini, in each case to Arg(1203). These data indicated that soluble human and porcine somatic ACE, whether generated in vivo or in vitro, have C-termini consistent with cleavage at a single site, the Arg(1203)/Ser(1204) bond, identical with the Arg(627)/Ser(628) site in testis ACE. 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Although testis and somatic ACE both share the same stalk and membrane domains the latter was reported to be shed inefficiently compared with testis ACE, and this was ascribed to cleavage at an alternative site [Beldent, Michaud, Bonnefoy, Chauvet and Corvol (1995) J. Biol. Chem. 270, 28962-28969]. These differences constitute a useful model system of the regulation and substrate preferences of the ACE secretase, and hence we investigated this further. In transfected Chinese hamster ovary cells, human somatic ACE (hsACE) was indeed shed less efficiently than human testis ACE, and shedding of somatic ACE responded poorly to phorbol ester activation. However, using several analytical techniques, we found no evidence that the somatic ACE cleavage site differed from that characterized in testis ACE. First, anti-peptide antibodies raised to specific sequences on either side of the reported cleavage site (Arg(1137)/Leu(1138)) clearly recognized soluble porcine somatic ACE, indicating that cleavage was C-terminal to Arg(1137). Second, a competitive ELISA gave superimposable curves for porcine plasma ACE, secretase-cleaved porcine somatic ACE (eACE), and trypsin-cleaved ACE, suggesting similar C-terminal sequences. Third, mass-spectral analyses of digests of released soluble hsACE or of eACE enabled precise assignments of the C-termini, in each case to Arg(1203). These data indicated that soluble human and porcine somatic ACE, whether generated in vivo or in vitro, have C-termini consistent with cleavage at a single site, the Arg(1203)/Ser(1204) bond, identical with the Arg(627)/Ser(628) site in testis ACE. In conclusion, the inefficient release of somatic ACE is not due to cleavage at an alternative stalk site, but instead supports the hypothesis that the testis ACE ectodomain contains a motif that activates shedding, which is occluded by the additional domain found in somatic ACE.</description><subject>Amino Acid Sequence</subject><subject>Animals</subject><subject>Antibodies - immunology</subject><subject>Cell Membrane - metabolism</subject><subject>CHO Cells</subject><subject>Cricetinae</subject><subject>Endopeptidases - metabolism</subject><subject>Enzyme Activation - drug effects</subject><subject>Humans</subject><subject>Isoenzymes - blood</subject><subject>Isoenzymes - chemistry</subject><subject>Isoenzymes - genetics</subject><subject>Isoenzymes - metabolism</subject><subject>Kidney - cytology</subject><subject>Kidney - enzymology</subject><subject>Kinetics</subject><subject>Male</subject><subject>Metalloendopeptidases - metabolism</subject><subject>Molecular Sequence Data</subject><subject>Peptide Fragments - blood</subject><subject>Peptide Fragments - chemistry</subject><subject>Peptide Fragments - immunology</subject><subject>Peptide Fragments - metabolism</subject><subject>Peptidyl-Dipeptidase A - blood</subject><subject>Peptidyl-Dipeptidase A - chemistry</subject><subject>Peptidyl-Dipeptidase A - genetics</subject><subject>Peptidyl-Dipeptidase A - metabolism</subject><subject>Phorbol 12,13-Dibutyrate - pharmacology</subject><subject>Solubility</subject><subject>Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization</subject><subject>Substrate Specificity</subject><subject>Swine</subject><subject>Testis - enzymology</subject><issn>0264-6021</issn><issn>1470-8728</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2000</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNpVUU1PGzEQtSqqJk35AVyQj3DYdux11g4HJBRBi4TUA_Rsee1xYtj1Rms3FfwD_jW7BEXpaUZ6HzN6j5ATBt8ZCP4DeCWKCji7KIUEydgnMmXDVijJ1RGZ7vEJ-ZrSIwATIOALmTCQ1YJJMSWv92t0LsQV7TxNXWtysNTEVegyxhRiYbu4xT6PDIwvzy3Ss6vl9TkNiYaI3gcbMGZqu3ZjenT0X8hrmjHlgTAQqcO0CRmpbdBszQqpyTS4QRKsaWjKpnmiaSCkb-SzN03C4485I39urh-Wv4q73z9vl1d3hS0X81x4KRhKJyUoXy_UXCLKEpxUtZK-ZOhAOa9c7YSrKgZzpyyXVS2cqThXIMsZudz5bv7WLTo7vNKbRm_60Jr-WXcm6P-RGNZ61W0145zBuwHbGdi-S6lHv9cy0GMvesxdj7nrj14Gzenh0QPFrojyDXCci7o</recordid><startdate>20000501</startdate><enddate>20000501</enddate><creator>Woodman, Z L</creator><creator>Oppong, S Y</creator><creator>Cook, S</creator><creator>Hooper, N M</creator><creator>Schwager, S L</creator><creator>Brandt, W F</creator><creator>Ehlers, M R</creator><creator>Sturrock, E D</creator><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>5PM</scope></search><sort><creationdate>20000501</creationdate><title>Shedding of somatic angiotensin-converting enzyme (ACE) is inefficient compared with testis ACE despite cleavage at identical stalk sites</title><author>Woodman, Z L ; Oppong, S Y ; Cook, S ; Hooper, N M ; Schwager, S L ; Brandt, W F ; Ehlers, M R ; Sturrock, E D</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c395t-f741e7d7708fb9857ee730d78b87f31ed08df8dbd4d66105d8c276b4da6228073</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2000</creationdate><topic>Amino Acid Sequence</topic><topic>Animals</topic><topic>Antibodies - immunology</topic><topic>Cell Membrane - metabolism</topic><topic>CHO Cells</topic><topic>Cricetinae</topic><topic>Endopeptidases - metabolism</topic><topic>Enzyme Activation - drug effects</topic><topic>Humans</topic><topic>Isoenzymes - blood</topic><topic>Isoenzymes - chemistry</topic><topic>Isoenzymes - genetics</topic><topic>Isoenzymes - metabolism</topic><topic>Kidney - cytology</topic><topic>Kidney - enzymology</topic><topic>Kinetics</topic><topic>Male</topic><topic>Metalloendopeptidases - metabolism</topic><topic>Molecular Sequence Data</topic><topic>Peptide Fragments - blood</topic><topic>Peptide Fragments - chemistry</topic><topic>Peptide Fragments - immunology</topic><topic>Peptide Fragments - metabolism</topic><topic>Peptidyl-Dipeptidase A - blood</topic><topic>Peptidyl-Dipeptidase A - chemistry</topic><topic>Peptidyl-Dipeptidase A - genetics</topic><topic>Peptidyl-Dipeptidase A - metabolism</topic><topic>Phorbol 12,13-Dibutyrate - pharmacology</topic><topic>Solubility</topic><topic>Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization</topic><topic>Substrate Specificity</topic><topic>Swine</topic><topic>Testis - enzymology</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Woodman, Z L</creatorcontrib><creatorcontrib>Oppong, S Y</creatorcontrib><creatorcontrib>Cook, S</creatorcontrib><creatorcontrib>Hooper, N M</creatorcontrib><creatorcontrib>Schwager, S L</creatorcontrib><creatorcontrib>Brandt, W F</creatorcontrib><creatorcontrib>Ehlers, M R</creatorcontrib><creatorcontrib>Sturrock, E D</creatorcontrib><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>PubMed Central (Full Participant titles)</collection><jtitle>Biochemical journal</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Woodman, Z L</au><au>Oppong, S Y</au><au>Cook, S</au><au>Hooper, N M</au><au>Schwager, S L</au><au>Brandt, W F</au><au>Ehlers, M R</au><au>Sturrock, E D</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Shedding of somatic angiotensin-converting enzyme (ACE) is inefficient compared with testis ACE despite cleavage at identical stalk sites</atitle><jtitle>Biochemical journal</jtitle><addtitle>Biochem J</addtitle><date>2000-05-01</date><risdate>2000</risdate><volume>347 Pt 3</volume><issue>3</issue><spage>711</spage><epage>718</epage><pages>711-718</pages><issn>0264-6021</issn><eissn>1470-8728</eissn><abstract>The somatic and testis isoforms of angiotensin-converting enzyme (ACE) are both C-terminally anchored ectoproteins that are shed by an unidentified secretase. Although testis and somatic ACE both share the same stalk and membrane domains the latter was reported to be shed inefficiently compared with testis ACE, and this was ascribed to cleavage at an alternative site [Beldent, Michaud, Bonnefoy, Chauvet and Corvol (1995) J. Biol. Chem. 270, 28962-28969]. These differences constitute a useful model system of the regulation and substrate preferences of the ACE secretase, and hence we investigated this further. In transfected Chinese hamster ovary cells, human somatic ACE (hsACE) was indeed shed less efficiently than human testis ACE, and shedding of somatic ACE responded poorly to phorbol ester activation. However, using several analytical techniques, we found no evidence that the somatic ACE cleavage site differed from that characterized in testis ACE. First, anti-peptide antibodies raised to specific sequences on either side of the reported cleavage site (Arg(1137)/Leu(1138)) clearly recognized soluble porcine somatic ACE, indicating that cleavage was C-terminal to Arg(1137). Second, a competitive ELISA gave superimposable curves for porcine plasma ACE, secretase-cleaved porcine somatic ACE (eACE), and trypsin-cleaved ACE, suggesting similar C-terminal sequences. Third, mass-spectral analyses of digests of released soluble hsACE or of eACE enabled precise assignments of the C-termini, in each case to Arg(1203). These data indicated that soluble human and porcine somatic ACE, whether generated in vivo or in vitro, have C-termini consistent with cleavage at a single site, the Arg(1203)/Ser(1204) bond, identical with the Arg(627)/Ser(628) site in testis ACE. In conclusion, the inefficient release of somatic ACE is not due to cleavage at an alternative stalk site, but instead supports the hypothesis that the testis ACE ectodomain contains a motif that activates shedding, which is occluded by the additional domain found in somatic ACE.</abstract><cop>England</cop><pmid>10769174</pmid><doi>10.1042/0264-6021:3470711</doi><tpages>8</tpages><oa>free_for_read</oa></addata></record>
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subjects	Amino Acid Sequence Animals Antibodies - immunology Cell Membrane - metabolism CHO Cells Cricetinae Endopeptidases - metabolism Enzyme Activation - drug effects Humans Isoenzymes - blood Isoenzymes - chemistry Isoenzymes - genetics Isoenzymes - metabolism Kidney - cytology Kidney - enzymology Kinetics Male Metalloendopeptidases - metabolism Molecular Sequence Data Peptide Fragments - blood Peptide Fragments - chemistry Peptide Fragments - immunology Peptide Fragments - metabolism Peptidyl-Dipeptidase A - blood Peptidyl-Dipeptidase A - chemistry Peptidyl-Dipeptidase A - genetics Peptidyl-Dipeptidase A - metabolism Phorbol 12,13-Dibutyrate - pharmacology Solubility Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization Substrate Specificity Swine Testis - enzymology
title	Shedding of somatic angiotensin-converting enzyme (ACE) is inefficient compared with testis ACE despite cleavage at identical stalk sites
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