Preventing unintended proteolysis in plant protein biofactories
Identifieur interne : 001047 ( Istex/Corpus ); précédent : 001046; suivant : 001048Preventing unintended proteolysis in plant protein biofactories
Auteurs : Meriem Benchabane ; Charles Goulet ; Daniel Rivard ; Loïc Faye ; Véronique Gomord ; Dominique MichaudSource :
- Plant Biotechnology Journal [ 1467-7644 ] ; 2008-09.
English descriptors
- Teeft :
- Acad, Accumulation rates, Amino, Amino acids, Apoplast, Arabidopsis, Authors journal compilation, Badri, Benchabane, Biochem, Biol, Biotechnol, Biotechnology, Blackwell publishing, Cell secretory pathway, Chloroplast, Cholera toxin, Christou, Companion protease inhibitors, Continuous secretion, Crude extracts, Crude preparations, Culture media, Culture medium, Cysteine, Cysteine proteases, Cytosol, Daniell, Degradation, Endogenous, Endogenous proteases, Endoplasmic, Endoplasmic reticulum, Epidermal growth factor, Escherichia coli, Extracellular, Extracellular medium, Extracellular secretion, Faye, Fischer, Fusion partners, Golgi apparatus, Gomord, Goulet, Heterogeneity, Heterologous, Heterologous environments, Heterologous protein production, High levels, Host plant, Human growth hormone, Inhibitor, Komarnytsky, Last decade, Leaf tissues, Meriem, Meriem benchabane, Methods biotechnol, Michaud, Natl, Organelle, Overall stability, Pathway, Peptide, Pharmaceutical, Phenylmethylsulphonyl fluoride, Physiol, Plant biol, Plant biotechnol, Plant biotechnology journal, Plant cell, Plant cell cultures, Plant cells, Plant crude extracts, Plant physiol, Plant proteases, Plant systems, Plant tissues, Planta, Polypeptide, Positive impact, Proc, Promoter, Protease, Protease activity, Protease inhibitors, Protein, Protein accumulation, Protein bodies, Protein degradation, Protein extraction, Protein extracts, Protein levels, Protein loss, Protein product, Protein production, Protein recovery, Protein stability, Protein storage vacuoles, Proteolysis, Proteolytic, Proteolytic enzymes, Recombinant, Recombinant antibodies, Recombinant protease inhibitors, Recombinant protein, Recombinant protein production, Recombinant proteins, Retention signal, Reticulum, Rivard, Same protein, Scfv, Schillberg, Secretory, Secretory pathway, Serine, Several proteins, Signal peptide, Similar manner, Stoger, Streatfield, Structural characteristics, Structural heterogeneity, Suitable destination, Surface antigen, Tabacum, Tabacum leaf, Tobacco cells, Transgene, Transgene expression, Transgene sequence, Transgenic, Transgenic plants, Transgenic tobacco, Trends biotechnol, Trends plant, Twyman, Useful proteins, Vaccine, Vacuole, Vierstra, Vitale.
Abstract
Numerous reports have been published over the last decade assessing the potential of plants as useful hosts for the heterologous expression of clinically useful proteins. Significant progress has been made, in particular, in optimizing transgene transcription and translation in plants, and in elucidating the complex post‐translational modifications of proteins typical of the plant cell machinery. In this article, we address the important issue of recombinant protein degradation in plant expression platforms, which directly impacts on the final yield, homogeneity and overall quality of the resulting protein product. Unlike several more stable and structurally less complex pharmaceuticals, recombinant proteins present a natural tendency to structural heterogeneity, resulting in part from the inherent instability of polypeptide chains expressed in heterologous environments. Proteolytic processing, notably, may dramatically alter the structural integrity and overall accumulation of recombinant proteins in plant expression systems, both in planta during expression and ex planta after extraction. In this article, we describe the current strategies proposed to minimize protein hydrolysis in plant protein factories, including organ‐specific transgene expression, organelle‐specific protein targeting, the grafting of stabilizing protein domains to labile proteins, protein secretion in natural fluids and the co‐expression of companion protease inhibitors.
Url:
DOI: 10.1111/j.1467-7652.2008.00344.x
Links to Exploration step
ISTEX:A3F2903DC3967455B82961915D0BF30D8412061DLe document en format XML
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Significant progress has been made, in particular, in optimizing transgene transcription and translation in plants, and in elucidating the complex post‐translational modifications of proteins typical of the plant cell machinery. In this article, we address the important issue of recombinant protein degradation in plant expression platforms, which directly impacts on the final yield, homogeneity and overall quality of the resulting protein product. Unlike several more stable and structurally less complex pharmaceuticals, recombinant proteins present a natural tendency to structural heterogeneity, resulting in part from the inherent instability of polypeptide chains expressed in heterologous environments. Proteolytic processing, notably, may dramatically alter the structural integrity and overall accumulation of recombinant proteins in plant expression systems, both in planta during expression and ex planta after extraction. In this article, we describe the current strategies proposed to minimize protein hydrolysis in plant protein factories, including organ‐specific transgene expression, organelle‐specific protein targeting, the grafting of stabilizing protein domains to labile proteins, protein secretion in natural fluids and the co‐expression of companion protease inhibitors.</div></front></TEI><istex><corpusName>wiley</corpusName><keywords><teeft><json:string>recombinant</json:string><json:string>recombinant proteins</json:string><json:string>transgenic</json:string><json:string>biotechnol</json:string><json:string>protease</json:string><json:string>michaud</json:string><json:string>planta</json:string><json:string>vacuole</json:string><json:string>chloroplast</json:string><json:string>faye</json:string><json:string>transgene</json:string><json:string>pathway</json:string><json:string>biotechnology</json:string><json:string>transgenic plants</json:string><json:string>plant 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Rivard</name><affiliations><json:string>Département de phytologie, CRH/INAF, Université Laval, QC, Canada, G1K 7P4</json:string></affiliations></json:item><json:item><name>Loïc Faye</name><affiliations><json:string>CNRS UMR 6037, IFRMP 23, Université de Rouen, Faculté des Sciences Bât. Ext. Biologie, 76821 Mont‐Saint‐Aignan Cedex, France</json:string></affiliations></json:item><json:item><name>Véronique Gomord</name><affiliations><json:string>CNRS UMR 6037, IFRMP 23, Université de Rouen, Faculté des Sciences Bât. Ext. Biologie, 76821 Mont‐Saint‐Aignan Cedex, France</json:string></affiliations></json:item><json:item><name>Dominique Michaud</name><affiliations><json:string>Département de phytologie, CRH/INAF, Université Laval, QC, Canada, G1K 7P4</json:string><json:string>E-mail: Dominique.Michaud@plg.ulaval.ca</json:string></affiliations></json:item></author><subject><json:item><lang><json:string>eng</json:string></lang><value>plant molecular farming</value></json:item><json:item><lang><json:string>eng</json:string></lang><value>protease inhibitors</value></json:item><json:item><lang><json:string>eng</json:string></lang><value>proteases</value></json:item><json:item><lang><json:string>eng</json:string></lang><value>protein stabilization</value></json:item><json:item><lang><json:string>eng</json:string></lang><value>protein targeting</value></json:item><json:item><lang><json:string>eng</json:string></lang><value>proteolytic processing</value></json:item><json:item><lang><json:string>eng</json:string></lang><value>recombinant protein degradation</value></json:item></subject><articleId><json:string>PBI344</json:string></articleId><arkIstex>ark:/67375/WNG-MPNXWSDG-4</arkIstex><language><json:string>eng</json:string></language><originalGenre><json:string>reviewArticle</json:string></originalGenre><abstract>Numerous reports have been published over the last decade assessing the potential of plants as useful hosts for the heterologous expression of clinically useful proteins. Significant progress has been made, in particular, in optimizing transgene transcription and translation in plants, and in elucidating the complex post‐translational modifications of proteins typical of the plant cell machinery. In this article, we address the important issue of recombinant protein degradation in plant expression platforms, which directly impacts on the final yield, homogeneity and overall quality of the resulting protein product. Unlike several more stable and structurally less complex pharmaceuticals, recombinant proteins present a natural tendency to structural heterogeneity, resulting in part from the inherent instability of polypeptide chains expressed in heterologous environments. Proteolytic processing, notably, may dramatically alter the structural integrity and overall accumulation of recombinant proteins in plant expression systems, both in planta during expression and ex planta after extraction. In this article, we describe the current strategies proposed to minimize protein hydrolysis in plant protein factories, including organ‐specific transgene expression, organelle‐specific protein targeting, the grafting of stabilizing protein domains to labile proteins, protein secretion in natural fluids and the co‐expression of companion protease inhibitors.</abstract><qualityIndicators><refBibsNative>true</refBibsNative><abstractWordCount>193</abstractWordCount><abstractCharCount>1468</abstractCharCount><keywordCount>7</keywordCount><score>9.316</score><pdfWordCount>11201</pdfWordCount><pdfCharCount>77075</pdfCharCount><pdfVersion>1.4</pdfVersion><pdfPageCount>16</pdfPageCount><pdfPageSize>596 x 819.323 pts</pdfPageSize><pdfWordsPerPage>700</pdfWordsPerPage><pdfText>true</pdfText></qualityIndicators><title>Preventing unintended proteolysis in plant protein biofactories</title><pmid><json:string>18452504</json:string></pmid><genre><json:string>review-article</json:string></genre><host><title>Plant Biotechnology Journal</title><language><json:string>unknown</json:string></language><doi><json:string>10.1111/(ISSN)1467-7652</json:string></doi><issn><json:string>1467-7644</json:string></issn><eissn><json:string>1467-7652</json:string></eissn><publisherId><json:string>PBI</json:string></publisherId><volume>6</volume><issue>7</issue><pages><first>633</first><last>648</last><total>16</total></pages><genre><json:string>journal</json:string></genre></host><namedEntities><unitex><date><json:string>35S</json:string><json:string>2008</json:string><json:string>1900</json:string></date><geogName></geogName><orgName><json:string>Articles Publishing Ltd</json:string><json:string>Plant Biotechnology Journal</json:string><json:string>Blackwell Publishing Ltd</json:string><json:string>France Received</json:string><json:string>Plant Blackwell PBI Biotechnology Ltd</json:string></orgName><orgName_funder></orgName_funder><orgName_provider></orgName_provider><persName><json:string>Daniel Rivard</json:string><json:string>Meriem Benchabane</json:string><json:string>Charles Goulet</json:string><json:string>Numerous</json:string><json:string>Serine Amastatin</json:string><json:string>Aignan Cedex</json:string><json:string>C. 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*
<i>Correspondence</i> (fax 418‐656‐7856; e‐mail <email>Dominique.Michaud@plg.ulaval.ca</email>)</correspondenceTo><linkGroup><link type="toTypesetVersion" href="file:PBI.PBI344.pdf"></link></linkGroup></publicationMeta><contentMeta><unparsedEditorialHistory>Received 20 October 2007; revised 13 March 2008; accepted 21 March 2008.</unparsedEditorialHistory><countGroup><count type="figureTotal" number="2"></count><count type="tableTotal" number="2"></count><count type="formulaTotal" number="0"></count><count type="referenceTotal" number="160"></count><count type="wordTotal" number="12667"></count></countGroup><titleGroup><title type="main">Preventing unintended proteolysis in plant protein biofactories</title><title type="shortAuthors"><i>Meriem Benchabane</i> et al.</title><title type="short">Protection of recombinant proteins in plants</title></titleGroup><creators><creator creatorRole="author" xml:id="cr1" affiliationRef="#a1"><personName><givenNames>Meriem</givenNames><familyName>Benchabane</familyName></personName></creator><creator creatorRole="author" xml:id="cr2" affiliationRef="#a1"><personName><givenNames>Charles</givenNames><familyName>Goulet</familyName></personName></creator><creator creatorRole="author" xml:id="cr3" affiliationRef="#a1"><personName><givenNames>Daniel</givenNames><familyName>Rivard</familyName></personName></creator><creator creatorRole="author" xml:id="cr4" affiliationRef="#a2"><personName><givenNames>Loïc</givenNames><familyName>Faye</familyName></personName></creator><creator creatorRole="author" xml:id="cr5" affiliationRef="#a2"><personName><givenNames>Véronique</givenNames><familyName>Gomord</familyName></personName></creator><creator creatorRole="author" xml:id="cr6" affiliationRef="#a1" corresponding="yes"><personName><givenNames>Dominique</givenNames><familyName>Michaud</familyName></personName></creator></creators><affiliationGroup><affiliation xml:id="a1" countryCode="CA"><unparsedAffiliation>Département de phytologie, CRH/INAF, Université Laval, QC, Canada, G1K 7P4</unparsedAffiliation></affiliation><affiliation xml:id="a2" countryCode="FR"><unparsedAffiliation>CNRS UMR 6037, IFRMP 23, Université de Rouen, Faculté des Sciences Bât. Ext. Biologie, 76821 Mont‐Saint‐Aignan Cedex, France</unparsedAffiliation></affiliation></affiliationGroup><keywordGroup xml:lang="en"><keyword xml:id="k1">plant molecular farming</keyword><keyword xml:id="k2">protease inhibitors</keyword><keyword xml:id="k3">proteases</keyword><keyword xml:id="k4">protein stabilization</keyword><keyword xml:id="k5">protein targeting</keyword><keyword xml:id="k6">proteolytic processing</keyword><keyword xml:id="k7">recombinant protein degradation</keyword></keywordGroup><abstractGroup><abstract type="main" xml:lang="en"><title type="main">Summary</title><p>Numerous reports have been published over the last decade assessing the potential of plants as useful hosts for the heterologous expression of clinically useful proteins. Significant progress has been made, in particular, in optimizing transgene transcription and translation in plants, and in elucidating the complex post‐translational modifications of proteins typical of the plant cell machinery. In this article, we address the important issue of recombinant protein degradation in plant expression platforms, which directly impacts on the final yield, homogeneity and overall quality of the resulting protein product. Unlike several more stable and structurally less complex pharmaceuticals, recombinant proteins present a natural tendency to structural heterogeneity, resulting in part from the inherent instability of polypeptide chains expressed in heterologous environments. Proteolytic processing, notably, may dramatically alter the structural integrity and overall accumulation of recombinant proteins in plant expression systems, both <i>in planta</i> during expression and <i>ex planta</i> after extraction. In this article, we describe the current strategies proposed to minimize protein hydrolysis in plant protein factories, including organ‐specific transgene expression, organelle‐specific protein targeting, the grafting of stabilizing protein domains to labile proteins, protein secretion in natural fluids and the co‐expression of companion protease inhibitors.</p></abstract></abstractGroup></contentMeta></header></component></istex:document></istex:metadataXml><mods version="3.6"><titleInfo lang="en"><title>Preventing unintended proteolysis in plant protein biofactories</title></titleInfo><titleInfo type="abbreviated" lang="en"><title>Protection of recombinant proteins in plants</title></titleInfo><titleInfo type="alternative" contentType="CDATA" lang="en"><title>Preventing unintended proteolysis in plant protein biofactories</title></titleInfo><name type="personal"><namePart type="given">Meriem</namePart><namePart type="family">Benchabane</namePart><affiliation>Département de phytologie, CRH/INAF, Université Laval, QC, Canada, G1K 7P4</affiliation><role><roleTerm type="text">author</roleTerm></role></name><name type="personal"><namePart type="given">Charles</namePart><namePart type="family">Goulet</namePart><affiliation>Département de phytologie, CRH/INAF, Université Laval, QC, Canada, G1K 7P4</affiliation><role><roleTerm type="text">author</roleTerm></role></name><name type="personal"><namePart type="given">Daniel</namePart><namePart type="family">Rivard</namePart><affiliation>Département de phytologie, CRH/INAF, Université Laval, QC, Canada, G1K 7P4</affiliation><role><roleTerm type="text">author</roleTerm></role></name><name type="personal"><namePart type="given">Loïc</namePart><namePart type="family">Faye</namePart><affiliation>CNRS UMR 6037, IFRMP 23, Université de Rouen, Faculté des Sciences Bât. Ext. Biologie, 76821 Mont‐Saint‐Aignan Cedex, France</affiliation><role><roleTerm type="text">author</roleTerm></role></name><name type="personal"><namePart type="given">Véronique</namePart><namePart type="family">Gomord</namePart><affiliation>CNRS UMR 6037, IFRMP 23, Université de Rouen, Faculté des Sciences Bât. Ext. Biologie, 76821 Mont‐Saint‐Aignan Cedex, France</affiliation><role><roleTerm type="text">author</roleTerm></role></name><name type="personal"><namePart type="given">Dominique</namePart><namePart type="family">Michaud</namePart><affiliation>Département de phytologie, CRH/INAF, Université Laval, QC, Canada, G1K 7P4</affiliation><affiliation>E-mail: Dominique.Michaud@plg.ulaval.ca</affiliation><role><roleTerm type="text">author</roleTerm></role></name><typeOfResource>text</typeOfResource><genre type="review-article" displayLabel="reviewArticle" authority="ISTEX" authorityURI="https://content-type.data.istex.fr" valueURI="https://content-type.data.istex.fr/ark:/67375/XTP-L5L7X3NF-P">review-article</genre><originInfo><publisher>Blackwell Publishing Ltd</publisher><place><placeTerm type="text">Oxford, UK</placeTerm></place><dateIssued encoding="w3cdtf">2008-09</dateIssued><edition>Received 20 October 2007; revised 13 March 2008; accepted 21 March 2008.</edition><copyrightDate encoding="w3cdtf">2008</copyrightDate></originInfo><language><languageTerm type="code" authority="rfc3066">en</languageTerm><languageTerm type="code" authority="iso639-2b">eng</languageTerm></language><physicalDescription><extent unit="figures">2</extent><extent unit="tables">2</extent><extent unit="formulas">0</extent><extent unit="references">160</extent><extent unit="words">12667</extent></physicalDescription><abstract lang="en">Numerous reports have been published over the last decade assessing the potential of plants as useful hosts for the heterologous expression of clinically useful proteins. Significant progress has been made, in particular, in optimizing transgene transcription and translation in plants, and in elucidating the complex post‐translational modifications of proteins typical of the plant cell machinery. In this article, we address the important issue of recombinant protein degradation in plant expression platforms, which directly impacts on the final yield, homogeneity and overall quality of the resulting protein product. Unlike several more stable and structurally less complex pharmaceuticals, recombinant proteins present a natural tendency to structural heterogeneity, resulting in part from the inherent instability of polypeptide chains expressed in heterologous environments. Proteolytic processing, notably, may dramatically alter the structural integrity and overall accumulation of recombinant proteins in plant expression systems, both in planta during expression and ex planta after extraction. In this article, we describe the current strategies proposed to minimize protein hydrolysis in plant protein factories, including organ‐specific transgene expression, organelle‐specific protein targeting, the grafting of stabilizing protein domains to labile proteins, protein secretion in natural fluids and the co‐expression of companion protease inhibitors.</abstract><subject lang="en"><genre>keywords</genre><topic>plant molecular farming</topic><topic>protease inhibitors</topic><topic>proteases</topic><topic>protein stabilization</topic><topic>protein targeting</topic><topic>proteolytic processing</topic><topic>recombinant protein degradation</topic></subject><relatedItem type="host"><titleInfo><title>Plant Biotechnology Journal</title></titleInfo><genre type="journal" authority="ISTEX" authorityURI="https://publication-type.data.istex.fr" valueURI="https://publication-type.data.istex.fr/ark:/67375/JMC-0GLKJH51-B">journal</genre><identifier type="ISSN">1467-7644</identifier><identifier type="eISSN">1467-7652</identifier><identifier type="DOI">10.1111/(ISSN)1467-7652</identifier><identifier type="PublisherID">PBI</identifier><part><date>2008</date><detail type="volume"><caption>vol.</caption><number>6</number></detail><detail type="issue"><caption>no.</caption><number>7</number></detail><extent unit="pages"><start>633</start><end>648</end><total>16</total></extent></part></relatedItem><relatedItem type="references" displayLabel="cit1"><titleInfo><title>Cutting edge of chloroplast proteolysis</title></titleInfo><name type="personal"><namePart type="given">Z.</namePart><namePart type="family">Adam</namePart><role><roleTerm type="text">author</roleTerm></role></name><name type="personal"><namePart type="given">A.K.</namePart><namePart type="family">Clarke</namePart><role><roleTerm type="text">author</roleTerm></role></name><genre>journal-article</genre><note type="citation/reference">Adam, Z. and Clarke, A.K. 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