Literature DB >> 22573318

Lysyl hydroxylase 3-mediated glucosylation in type I collagen: molecular loci and biological significance.

Marnisa Sricholpech1, Irina Perdivara, Megumi Yokoyama, Hideaki Nagaoka, Masahiko Terajima, Kenneth B Tomer, Mitsuo Yamauchi.   

Abstract

Recently, by employing the short hairpin RNA technology, we have generated MC3T3-E1 (MC)-derived clones stably suppressing lysyl hydroxylase 3 (LH3) (short hairpin (Sh) clones) and demonstrated the LH3 function as glucosyltransferase in type I collagen (Sricholpech, M., Perdivara, I., Nagaoka, H., Yokoyama, M., Tomer, K. B., and Yamauchi, M. (2011) Lysyl hydroxylase 3 glucosylates galactosylhydroxylysine residues in type I collagen in osteoblast culture. J. Biol. Chem. 286, 8846-8856). To further elucidate the biological significance of this modification, we characterized and compared type I collagen phenotypes produced by Sh clones and two control groups, MC and those transfected with empty vector. Mass spectrometric analysis identified five glycosylation sites in type I collagen (i.e. α1,2-87, α1,2-174, and α2-219. Of these, the predominant glycosylation site was α1-87, one of the major helical cross-linking sites. In Sh collagen, the abundance of glucosylgalactosylhydroxylysine was significantly decreased at all of the five sites with a concomitant increase in galactosylhydroxylysine at four of these sites. The collagen cross-links were significantly diminished in Sh clones, and, for the major cross-link, dihydroxylysinonorleucine (DHLNL), glucosylgalactosyl-DHLNL was diminished with a concomitant increase in galactosyl-DHLNL. When subjected to in vitro incubation, in Sh clones, the rate of decrease in DHLNL was lower, whereas the rate of increase in its maturational cross-link, pyridinoline, was comparable with controls. Furthermore, in Sh clones, the mean diameters of collagen fibrils were significantly larger, and the onset of mineralized nodule formation was delayed when compared with those of controls. These results indicate that the LH3-mediated glucosylation occurs at the specific molecular loci in the type I collagen molecule and plays critical roles in controlling collagen cross-linking, fibrillogenesis, and mineralization.

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Year:  2012        PMID: 22573318      PMCID: PMC3391079          DOI: 10.1074/jbc.M112.343954

Source DB:  PubMed          Journal:  J Biol Chem        ISSN: 0021-9258            Impact factor:   5.157


  77 in total

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2.  Characterization of three fragments that constitute the monomers of the human lysyl hydroxylase isoenzymes 1-3. The 30-kDa N-terminal fragment is not required for lysyl hydroxylase activity.

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3.  Analysis of relative gene expression data using real-time quantitative PCR and the 2(-Delta Delta C(T)) Method.

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4.  Lysyl hydroxylase 3 is a multifunctional protein possessing collagen glucosyltransferase activity.

Authors:  J Heikkinen; M Risteli; C Wang; J Latvala; M Rossi; M Valtavaara; R Myllylä
Journal:  J Biol Chem       Date:  2000-11-17       Impact factor: 5.157

5.  Posttranslational modifications of bone collagen type I are related to the function of rat femoral regions.

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6.  The third activity for lysyl hydroxylase 3: galactosylation of hydroxylysyl residues in collagens in vitro.

Authors:  Chunguang Wang; Hanne Luosujärvi; Jari Heikkinen; Maija Risteli; Lahja Uitto; Raili Myllylä
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7.  Overhydroxylation of lysyl residues is the initial step for altered collagen cross-links and fibril architecture in fibrotic skin.

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8.  The chemistry of the collagen cross-links. The mechanism of stabilization of the reducible intermediate cross-links.

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Journal:  Biochem J       Date:  1975-08       Impact factor: 3.857

9.  Identification of amino acids important for the catalytic activity of the collagen glucosyltransferase associated with the multifunctional lysyl hydroxylase 3 (LH3).

Authors:  Chunguang Wang; Maija Risteli; Jari Heikkinen; Anna-Kaisa Hussa; Lahja Uitto; Raili Myllyla
Journal:  J Biol Chem       Date:  2002-03-14       Impact factor: 5.157

10.  Urinary excretion of glucosyl-galactosyl pyridinoline: a specific biochemical marker of synovium degradation.

Authors:  E Gineyts; P Garnero; P D Delmas
Journal:  Rheumatology (Oxford)       Date:  2001-03       Impact factor: 7.580
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  35 in total

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Authors:  D M Hudson; M Garibov; D R Dixon; T Popowics; D R Eyre
Journal:  J Periodontal Res       Date:  2017-06-20       Impact factor: 4.419

2.  Discovery and characterization of hydroxylysine in recombinant monoclonal antibodies.

Authors:  Qing Xie; Benjamin Moore; Richard L Beardsley
Journal:  MAbs       Date:  2015-12-14       Impact factor: 5.857

3.  Glycosylation and cross-linking in bone type I collagen.

Authors:  Masahiko Terajima; Irina Perdivara; Marnisa Sricholpech; Yoshizumi Deguchi; Nancy Pleshko; Kenneth B Tomer; Mitsuo Yamauchi
Journal:  J Biol Chem       Date:  2014-06-23       Impact factor: 5.157

4.  Preserved Proteins from Extinct Bison latifrons Identified by Tandem Mass Spectrometry; Hydroxylysine Glycosides are a Common Feature of Ancient Collagen.

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Journal:  Mol Cell Proteomics       Date:  2015-05-06       Impact factor: 5.911

5.  Glycosylation modulates melanoma cell α2β1 and α3β1 integrin interactions with type IV collagen.

Authors:  Maciej J Stawikowski; Beatrix Aukszi; Roma Stawikowska; Mare Cudic; Gregg B Fields
Journal:  J Biol Chem       Date:  2014-06-23       Impact factor: 5.157

Review 6.  Mechano-regulation of collagen biosynthesis in periodontal ligament.

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Journal:  J Prosthodont Res       Date:  2014-10-11       Impact factor: 4.642

7.  Effect of hydroxylysine-O-glycosylation on the structure of type I collagen molecule: A computational study.

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8.  Modulation of receptor binding to collagen by glycosylated 5-hydroxylysine: Chemical biology approaches made feasible by Carpino's Fmoc group.

Authors:  Maré Cudic; Gregg B Fields
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9.  Comprehensive Characterization of Glycosylation and Hydroxylation of Basement Membrane Collagen IV by High-Resolution Mass Spectrometry.

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10.  Effects of fish collagen peptides on collagen post-translational modifications and mineralization in an osteoblastic cell culture system.

Authors:  Shizuka Yamada; Hideaki Nagaoka; Masahiko Terajima; Nobuaki Tsuda; Yoshihiko Hayashi; Mitsuo Yamauchi
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