Procollagen with skipping of alpha 1(I) exon 41 has lower binding affinity for alpha 1(I) C-telopeptide, impaired in vitro fibrillogenesis, and altered fibril morphology

Previous in vitro data on type I collagen self-assembly into fibrils suggested that the amino acid 776-796 region of the alpha1(I) chain is crucial for fibril formation because it serves as the recognition site for the telopeptide of a docking collagen monomer. We used a natural collagen mutation wi...

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Veröffentlicht in:	The Journal of biological chemistry 2002-02, Vol.277 (6), p.4215-4222
Hauptverfasser:	Cabral, Wayne A, Fertala, Andrzej, Green, Laura K, Korkko, Jarmo, Forlino, Antonella, Marini, Joan C
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Sprache:	eng
Schlagworte:	Amino Acid Sequence Base Sequence Child Collagen - chemistry Collagen - genetics Collagen - metabolism Collagen Type I DNA Primers Exons Humans Male Mutation Peptides - chemistry Peptides - genetics Peptides - metabolism Procollagen - chemistry Procollagen - metabolism Protein Conformation RNA, Messenger - genetics
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container_title	The Journal of biological chemistry
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creator	Cabral, Wayne A Fertala, Andrzej Green, Laura K Korkko, Jarmo Forlino, Antonella Marini, Joan C
description	Previous in vitro data on type I collagen self-assembly into fibrils suggested that the amino acid 776-796 region of the alpha1(I) chain is crucial for fibril formation because it serves as the recognition site for the telopeptide of a docking collagen monomer. We used a natural collagen mutation with a deletion of amino acids 766-801 to confirm the importance of this region for collagen fibril formation. The proband has type III osteogenesis imperfecta and is heterozygous for a COL1A1 IVS 41 A(+4) --> C substitution. The intronic mutation causes splicing of exon 41, confirmed by sequencing of normal and shorter reverse transcriptase-PCR products. Reverse transcriptase-PCR using RNA from proband dermal fibroblasts and clonal cell lines showed the mutant cDNA was about 15% of total alpha1(I) cDNA. The mutant transcript is translated; structurally abnormal alpha chains are demonstrated in the cell layer of proband fibroblasts by SDS-urea-PAGE. The proportion of mutant chains in the secreted procollagen was determined to be 10% by resistance to digestion with MMP-1, since chains lacking exon 41 are missing the vertebral collagenase cleavage site. Secreted proband collagen was used for analysis of kinetics of binding of alpha1(I) C-telopeptide using an optical biosensor. Telopeptide had slower association and faster dissociation from proband than from normal collagen. Purified proband pC-collagen was used to study fibril formation. The presence of the mutant molecules decreases the rate of fibril formation. The fibrils formed in the presence of 10-15% mutant molecules have strikingly increased length compared with normal collagen, but are well organized, as demonstrated by D-periodicity. These results suggest that some collagen molecules containing the mutant chain are incorporated into fibrils and that the absence of the telopeptide binding region from even a small portion of the monomers interferes with fibril growth. Both abnormal fibrils and slower remodeling may contribute to the severe phenotype.in
doi_str_mv	10.1074/jbc.M109048200
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We used a natural collagen mutation with a deletion of amino acids 766-801 to confirm the importance of this region for collagen fibril formation. The proband has type III osteogenesis imperfecta and is heterozygous for a COL1A1 IVS 41 A(+4) --> C substitution. The intronic mutation causes splicing of exon 41, confirmed by sequencing of normal and shorter reverse transcriptase-PCR products. Reverse transcriptase-PCR using RNA from proband dermal fibroblasts and clonal cell lines showed the mutant cDNA was about 15% of total alpha1(I) cDNA. The mutant transcript is translated; structurally abnormal alpha chains are demonstrated in the cell layer of proband fibroblasts by SDS-urea-PAGE. The proportion of mutant chains in the secreted procollagen was determined to be 10% by resistance to digestion with MMP-1, since chains lacking exon 41 are missing the vertebral collagenase cleavage site. Secreted proband collagen was used for analysis of kinetics of binding of alpha1(I) C-telopeptide using an optical biosensor. Telopeptide had slower association and faster dissociation from proband than from normal collagen. Purified proband pC-collagen was used to study fibril formation. The presence of the mutant molecules decreases the rate of fibril formation. The fibrils formed in the presence of 10-15% mutant molecules have strikingly increased length compared with normal collagen, but are well organized, as demonstrated by D-periodicity. These results suggest that some collagen molecules containing the mutant chain are incorporated into fibrils and that the absence of the telopeptide binding region from even a small portion of the monomers interferes with fibril growth. 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We used a natural collagen mutation with a deletion of amino acids 766-801 to confirm the importance of this region for collagen fibril formation. The proband has type III osteogenesis imperfecta and is heterozygous for a COL1A1 IVS 41 A(+4) --> C substitution. The intronic mutation causes splicing of exon 41, confirmed by sequencing of normal and shorter reverse transcriptase-PCR products. Reverse transcriptase-PCR using RNA from proband dermal fibroblasts and clonal cell lines showed the mutant cDNA was about 15% of total alpha1(I) cDNA. The mutant transcript is translated; structurally abnormal alpha chains are demonstrated in the cell layer of proband fibroblasts by SDS-urea-PAGE. The proportion of mutant chains in the secreted procollagen was determined to be 10% by resistance to digestion with MMP-1, since chains lacking exon 41 are missing the vertebral collagenase cleavage site. Secreted proband collagen was used for analysis of kinetics of binding of alpha1(I) C-telopeptide using an optical biosensor. Telopeptide had slower association and faster dissociation from proband than from normal collagen. Purified proband pC-collagen was used to study fibril formation. The presence of the mutant molecules decreases the rate of fibril formation. The fibrils formed in the presence of 10-15% mutant molecules have strikingly increased length compared with normal collagen, but are well organized, as demonstrated by D-periodicity. These results suggest that some collagen molecules containing the mutant chain are incorporated into fibrils and that the absence of the telopeptide binding region from even a small portion of the monomers interferes with fibril growth. Both abnormal fibrils and slower remodeling may contribute to the severe phenotype.in</description><subject>Amino Acid Sequence</subject><subject>Base Sequence</subject><subject>Child</subject><subject>Collagen - chemistry</subject><subject>Collagen - genetics</subject><subject>Collagen - metabolism</subject><subject>Collagen Type I</subject><subject>DNA Primers</subject><subject>Exons</subject><subject>Humans</subject><subject>Male</subject><subject>Mutation</subject><subject>Peptides - chemistry</subject><subject>Peptides - genetics</subject><subject>Peptides - metabolism</subject><subject>Procollagen - chemistry</subject><subject>Procollagen - metabolism</subject><subject>Protein Conformation</subject><subject>RNA, Messenger - genetics</subject><issn>0021-9258</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2002</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNqFkU1PwzAMhnMA8X3liHxCIK2QNM3aHNHElzQEBzhPaeNsgbYJSQfsJ_EvCWJI3PDFsvz4teyXkENGzxgti_Pnujm7Y1TSosop3SA7lOYsk7motslujM80RSHZFtlmrKTjVOyQz4fgGte2ao49vNthAfHFem_7OTgDqvULBezk9hTww_VQMFioCK17xwC17fU3p4yxvR1WYFz4OzHJBmydRz9YjSOwnVc2oAbbw5sdggNj62Db1qXVGG0cgep1Ehjwm_ppQueCX7jErPbJplFtxIN13iNPV5ePk5tsen99O7mYZj4dNWRcNFUjcsPlWGpaqlzVpeLNWBuJRV4bhhwrWjAhRV6Na65LbhohGlpLzjVSvkeOf3R9cK9LjMOss7HB9KIe3TLOSlZwJqn4F2RVLpIPLIFHa3BZd6hnPthOhdXs1wX-BfWkiNg</recordid><startdate>20020208</startdate><enddate>20020208</enddate><creator>Cabral, Wayne A</creator><creator>Fertala, Andrzej</creator><creator>Green, Laura K</creator><creator>Korkko, Jarmo</creator><creator>Forlino, Antonella</creator><creator>Marini, Joan C</creator><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>7TM</scope><scope>8FD</scope><scope>FR3</scope><scope>P64</scope><scope>RC3</scope><scope>7X8</scope></search><sort><creationdate>20020208</creationdate><title>Procollagen with skipping of alpha 1(I) exon 41 has lower binding affinity for alpha 1(I) C-telopeptide, impaired in vitro fibrillogenesis, and altered fibril morphology</title><author>Cabral, Wayne A ; 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subjects	Amino Acid Sequence Base Sequence Child Collagen - chemistry Collagen - genetics Collagen - metabolism Collagen Type I DNA Primers Exons Humans Male Mutation Peptides - chemistry Peptides - genetics Peptides - metabolism Procollagen - chemistry Procollagen - metabolism Protein Conformation RNA, Messenger - genetics
title	Procollagen with skipping of alpha 1(I) exon 41 has lower binding affinity for alpha 1(I) C-telopeptide, impaired in vitro fibrillogenesis, and altered fibril morphology
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