A Novel 3-Hydroxyproline (3Hyp)-rich Motif Marks the Triple-helical C Terminus of Tendon Type I Collagen

Eyre, David R.; Weis, Mary Ann; Hudson, David M.; Wu, Jiann-Jiu; Kim, Lammy S.

doi:10.1074/jbc.c110.195768

Cited by 50 publications

(93 citation statements)

References 31 publications

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“…The spatial arrangement of these sites, which are staggered by a D-period, suggested a fundamental role for these modifications in the supramolecular assembly by forming hydrogen bonds between adjacent collagen triple helices (20,21). In rat tail tendon, a 3-Hyp-rich motif was found at the C-terminal end of the triple helix (22).…”

mentioning

confidence: 97%

Posttranslational Modifications in Type I Collagen from Different Tissues Extracted from Wild Type and Prolyl 3-Hydroxylase 1 Null Mice

Pokidysheva

Zientek

Ishikawa

et al. 2013

Journal of Biological Chemistry

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Background: 3-Hydroxylation of proline residues in type I collagen is rare but important. Results: 3-Hyp sites have been identified in both chains of mouse type I collagen in wild type and P3H1 null mice. Conclusion: The absence of 3-Hyp does not alter the D-period of collagen fibrils, but alters the lateral growth of the fibrils. Significance: Type I collagen prolyl 3-hydroxylation is tissue-specific.

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mentioning

confidence: 97%

Posttranslational Modifications in Type I Collagen from Different Tissues Extracted from Wild Type and Prolyl 3-Hydroxylase 1 Null Mice

Pokidysheva

Zientek

Ishikawa

et al. 2013

Journal of Biological Chemistry

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“…They also predicted the tissue-specific occurrence of 3-Hyp residues within Gly-Pro-Pro repeats at the COOH termini of the COL1 domains of ␣1(V) and other fibrillar collagen chains, based on mapping of such residues to Gly-Pro-Pro repeats at the COL1 COOH termini of ␣1(I) and ␣2(I) chains from tendon but not from skin or bone (30). Here, we confirm the presence of X-position Hyp residues at sites 434, 665, and 695 and in all three COL1 COOH-terminal Gly-Pro-Pro repeats (sites 1004, 1007, and 1010) in bovine placenta ␣1(V) chains (supplemental Spectra 1), whereas human recombinant pro-␣1(V) chains contained an X-position Hyp residue only at site 434.…”

Section: Comparison Of the Col1 Ptms Of Bovine Placental ␣1(v) And Humentioning

confidence: 99%

“…Recent analyses of collagenous proteins by MS relied heavily on a priori biological knowledge to assess prolyl hydroxylation (i.e. PTM assignment based upon hydroxylation motifs) (30,32) rather than PTM assignment based upon localizing fragments from MS n spectra. We report comprehensive mapping of all PTMs involving hydroxylated residues on bovine placenta ␣1(V) and human recombinant pro-␣1(V) collagen chains and provide manually verified mass spectral evidence for each modified site.…”

Section: Collagen Type V (Col(v))mentioning

confidence: 99%

Comprehensive Mass Spectrometric Mapping of the Hydroxylated Amino Acid residues of the α1(V) Collagen Chain

Yang

Park

Davis

et al. 2012

Journal of Biological Chemistry

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Background: ␣1(V) is an extensively modified collagen chain important in disease. Results: Comprehensive mapping of ␣1(V) post-translational modifications reveals unexpectedly large numbers of X-position hydroxyprolines in Gly-X-Y amino acid triplets. Conclusion:The unexpected abundance of X-position hydroxyprolines suggests a mechanism for differential modification of collagen properties. Significance: Positions, numbers, and occupancy of modified sites can provide insights into ␣1(V) biological properties.

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“…17 Chondroitin Sulfate/Dermatan Sulfate (CS/DS) and Hyaluronan (HA) Contents GAGs were solubilized and prepared for FACE analyses. 18 Briefly, four FDLs were combined and digested with proteinase or 0.1 M NaOH, GAGs desalted by MicroCon3 filtration, digested with chondroitinase ABC prior to fluorotagging with 2-aminoacridone/sodium cyanoborohydride followed by electrophoretic separation of disaccharide products.…”

Section: Collagen Typingmentioning

confidence: 99%

Murine tendon function is adversely affected by aggrecan accumulation due to the knockout of ADAMTS5

Wang

Bell

Thakore

et al. 2011

Journal Orthopaedic Research

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The present study examined the effect of ADAMTS5 (TS5) knockout on the properties of murine flexor digitorum longus (FDL) and Achilles tendons. FDL and Achilles tendons were analyzed using biomechanical testing, histology, and immunohistochemistry; further characterization of FDL tendons was conducted using transmission electron microscopy (collagen fibril ultrastructure), SDS-PAGE (collagen content and type), fluorescence-assisted carbohydrate electrophoresis for chondroitin sulfate and hyaluronan, and Western blotting for aggrecan, versican, and decorin abundance and distribution. FDL tendons of TS5 À/À mice showed a 33% larger cross-sectional area, increased collagen fibril area fraction, and decreased material properties relative to those of wild type mice. In TS5 À/À mice, aggrecan accumulated in the pericellular matrix of tendon fibroblasts. In Achilles tendons, cross-sectional area, stress relaxation, and structural properties were similar in TS5 À/À and wild type mice; however, the TS5 À/À tendons exhibited a higher tensile modulus and a weakened enthesis. These results demonstrate that TS5 deficiency disturbs normal tendon collagen organization and alters biomechanical properties. Hence, the role of ADAMTS5 in tendon is to remove pericellular and interfibrillar aggrecan to maintain the molecular architecture responsible for normal tissue function. ß

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A Novel 3-Hydroxyproline (3Hyp)-rich Motif Marks the Triple-helical C Terminus of Tendon Type I Collagen

Cited by 50 publications

References 31 publications

Posttranslational Modifications in Type I Collagen from Different Tissues Extracted from Wild Type and Prolyl 3-Hydroxylase 1 Null Mice

Posttranslational Modifications in Type I Collagen from Different Tissues Extracted from Wild Type and Prolyl 3-Hydroxylase 1 Null Mice

Comprehensive Mass Spectrometric Mapping of the Hydroxylated Amino Acid residues of the α1(V) Collagen Chain

Murine tendon function is adversely affected by aggrecan accumulation due to the knockout of ADAMTS5

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