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Connective Tissue Research Volume 47, 2006 - Issue 4
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ORIGINAL RESEARCH

Mapping Lubricin in Canine Musculoskeletal Tissues

Yulong Sun Orthopedic Biomechanics Laboratory, Division of Orthopedic Research, Mayo Clinic, Rochester, Minnesota, USA
,
Evelyn J. Berger Orthopedic Biomechanics Laboratory, Division of Orthopedic Research, Mayo Clinic, Rochester, Minnesota, USA
,
Chunfeng Zhao Orthopedic Biomechanics Laboratory, Division of Orthopedic Research, Mayo Clinic, Rochester, Minnesota, USA
,
Kai-Nan An Orthopedic Biomechanics Laboratory, Division of Orthopedic Research, Mayo Clinic, Rochester, Minnesota, USA
,
Peter C. Amadio Orthopedic Biomechanics Laboratory, Division of Orthopedic Research, Mayo Clinic, Rochester, Minnesota, USA
&
Gregory Jay Department of Medicine and Division of Engineering, Rhode Island Hospital and Brown University, Providence, Rhode Island, USA
Pages 215-221 | Received 13 Apr 2006, Accepted 05 Jun 2006, Published online: 06 Aug 2009

REFERENCES

  • Swann D. A., Sotman S. L., Dixon M., Brooks C. The isolation and partial characterization of the major glycoprotein from articular lubricating fraction from bovine synovial fluid. Biochem. J. 1977; 161: 473–485, [INFOTRIEVE], [CSA]
  • Swann D. A., Slayter H. S., Silver F. H. The molecular structure of lubricating glycoprotein-I, the boundary lubricant for articular cartilage. J. Biol. Chem. 1981; 256(11)5921–5925, [INFOTRIEVE], [CSA]
  • Swann D. A., Hendren R. B., Radin E. L., Sotman S. T., Duda E. A. The lubricating activity of synovial fluid glycoproteins. Arth. Rheum. 1981; 24: 22–30, [CSA]
  • Swann D. A., Silver F. H., Slayter H. S., Stafford W., Shore E. The molecular structure and lubricating activity of lubricin isolated from bovine and human synovial fluids. Biochem. J. 1985; 225(1)195–201, [INFOTRIEVE], [CSA]
  • Jay G. D. Characterization of bovine synovial fluid lubricting factor. I. Chemical, surface activity and lubricating properties. Connect. Tissue Res. 1992; 28: 71–88, [INFOTRIEVE], [CSA]
  • Jay G. D., Haberstroh K., Cha C. J. Comparison of the boundary-lubricating ability of bovine synovial fluid, lubricin, and Healon. J. Biomed. Mater. Res. 1998; 40: 414–418, [INFOTRIEVE], [CSA], [CROSSREF]
  • Jay G. D., Harris D. A., Cha C. J. Boundary lubrication by lubricin is mediated by O-linked beta(1–3)Gal-GalNAc oligosaccharides. Glycoconj. J. 2001; 18: 807–815, [INFOTRIEVE], [CSA], [CROSSREF]
  • Merberg D. M., Fitz L. J., Temple P., Giannotti J., Murtha P., Fitzgerald M., Scaltreto H., Kelleher K., Preissner K., Kriz R., Jacobs K., Turner K. A. “Comparison of vitronectin and megakaryocyte stimulating factor.”. In Biology of Vitronectins and Their Receptors, K. T. Preissner, S. Rosenblatt, C. Kost, J. Wegerhoff, D. F. Mosher. Elsevier Science, Amsterdam 1993; pp. 45–52
  • Jay G. D., Britt D. E., Cha C. J. Lubricin is a product of megakaryocyte stimulating factor gene expression by human synovial fibroblasts. J. Rheumatol. 2000; 27(3)594–600, [INFOTRIEVE], [CSA]
  • Flannery C. R., Hughes C. E., Schumacher B. L., Tudor D., Aydelotte M. B., Kuettner K. E., Caterson B. Articular cartilage superficial zone protein (SZP) is homologous to megakaryocyte stimulating factor precursor and is a multifunctional proteoglycan with potential growth-promoting, cytoprotective, and lubricating properties in cartilage metabolism. Biochem. Biophys. Res. Commun. 1999; 254: 535–541, [INFOTRIEVE], [CSA], [CROSSREF]
  • Jay G. D., Tantravahi U., Britt D. E., Barrach H. J., Cha C. J. Homology of lubricin and superficial zone protein (SZP): products of megakaryocyte stimulating factor (MSF) gene expression by human synovial fibroblasts and articular chondrocytes localized to chromosome 1q25. J. Orthop. Res. 2001; 19(4)677–687, [INFOTRIEVE], [CSA], [CROSSREF]
  • Schumacher B. L., Block J. A., Schmid T. M., Aydelotte M. B., Kuettner K. E. A novel proteoglycan synthesized and secreted by chondrocytes of the superficial zone of articular cartilage. Arch. Biochem. Biophys. 1994; 15: 144–152, [CSA], [CROSSREF]
  • Schumacher B. L., Hughes C. E., Kuettner K. E., Caterson B., Aydelotte M. B. Immunodetection and partial cDNA sequence of the proteoglycan, superficial zone protein, synthesized by cells lining synovial joints. J. Orthop. Res. 1999; 17: 110–120, [INFOTRIEVE], [CSA], [CROSSREF]
  • Ikegawa S., Sano M., Koshizuka Y., Nakamura Y. Isolation, characterization and mapping of the mouse and human PRG4 (proteoglycan 4) genes. Cytogenet. Cell Genet. 2000; 90: 291–297, [INFOTRIEVE], [CSA], [CROSSREF]
  • Rees S. G., Davies J. R., Tudor D., Flannery C. R., Hughes C. E., Dent C. M., Caterson B. Immunolocalisation and expression of proteoglycan 4 (cartilage superficial zone proteoglycan) in tendon. Matrix Biol. 2002; 21: 593–602, [INFOTRIEVE], [CSA], [CROSSREF]
  • Schumacher B. L., Schmidt T. A., Voegtline M. S., Chen A. C., Sah R. L. Proteoglycan 4 (PRG4) synthesis and immunolocalization in bovine meniscus. J. Orthop. Res. 2005; 23: 562–568, [INFOTRIEVE], [CSA], [CROSSREF]
  • Liu Y. J., Lu S. H., Xu B., Yang R. C., Ren Q., Liu B., Li B., Lu M., Yan F. Y., Han Z. B., Han Z. C. Hemangiopoietin, a novel human growth factor for the primitive cells of both hematopoietic and endothelial cell lineages. Blood 2004; 103: 4449–4456, [INFOTRIEVE], [CSA], [CROSSREF]
  • Su J. L., Schumacher B. L., Lindley K. M., Soloveychik V., Burkhart W., Triantafillou J. A., Kuettner K., Schmid T. Detection of superficial zone protein in human and animal body fluids by cross-species monoclonal antibodies specific to superficial zone protein. Hybridoma 2001; 20: 149–157, [INFOTRIEVE], [CSA], [CROSSREF]
  • Rhee D. K., Marcelino J., Baker M., Gong Y., Smits P., Lefebvre V., Jay G. D., Stewart M., Wang H., Warman M. L., Carpten J. D. The secreted glycoprotein lubricin protects cartilage surfaces and inhibits synovial cell overgrowth. J. Clin. Invest. 2005; 115: 622–631, [INFOTRIEVE], [CSA], [CROSSREF]
  • Schaefer D. B., Wendt D., Moretti M., Jakob M., Jay G. D., Heberer M., Martin I. Lubricin reduces cartilage–cartilage integration. Biorheology 2004; 41: 503–508, [INFOTRIEVE], [CSA]
  • Englert C., McGowan K. B., Klein T. J., Giurea A., Schumacher B. L., Sah R. L. Inhibition of integrative cartilage repair by proteoglycan 4 in synovial fluid. Arth. Rheum. 2005; 52: 1091–1099, [CSA], [CROSSREF]
  • Marcelino J., Carpten J. D., Suwairi W. M., Gutierrez O. M., Schwartz S., Robbins C., Sood R., Makalowska I., Baxevanis A., Johnstone B., Laxer R. M., Zemel L., Kim C. A., Herd J. K., Ihle J., Williams C., Johnson M., Raman V., Alonso L. G., Brunoni D., Gerstein A., Papadopoulos N., Bahabri S. A., Trent J. M., Warman M. L. CACP, encoding a secreted proteoglycan, is mutated in camptodactyly-arthropathy-coxa vara-pericarditis syndrome. Nat. Genet. 1999; 23(3)319–322, [INFOTRIEVE], [CSA], [CROSSREF]
  • Jew J., Berger E., Berger R., Lin Y. T. Fluorescence immunohistochemistry and confocal scanning laser microscopy. Acta Orthop. Scand. 2003; 74: 689–696, [INFOTRIEVE], [CSA], [CROSSREF]
  • Ochi T., Iwase R., Okabe N., Fink C. W., Ono K. The pathology of the involved tendons in patients with familial arthropathy and congenital camptodactyly. Arth. Rheum. 1983; 26: 896–900, [CSA]
  • Rhee D. K., Marcelino J., Al-Mayouf S., Schelling D. K., Bartels C. F., Cui Y., Laxer R., Goldbach-Mansky R., Warman M. L. Consequences of disease-causing mutations on lubricin protein synthesis, secretion, and post-translational processing. J. Biol. Chem. 2005; 280(35)31325–31332, [INFOTRIEVE], [CSA], [CROSSREF]
  • Silver F., Freeman J., Seehra G. Collagen self-assembly and the development of tendon mechanical properties. J. Biomech. 2003; 36: 1529–1553, [INFOTRIEVE], [CSA], [CROSSREF]
  • Screen H., Lee D., Bader D., Shelton J. An investigation into the effects of the hierarchical structure of tendon fascicles on micromechanical properties. Proc. Inst. Mech. Eng. [H] 2004; 218: 109–119, [CSA]
  • Cherny R. C., Honan M. A., Thiagarajan P. Site-directed mutagenesis of the arginine-glycine-aspartic acid in vitronectin abolishes cell adhesion. J. Biol. Chem. 1993; 268: 9725–9729, [INFOTRIEVE], [CSA]
  • Deng G., Royle G., Wang S., Crain K., Loskutoff D. J. Structural and functional analysis of the plasminogen activator inhibitor-1 binding motif in the somatomedin B domain of vitronectin. J. Biol. Chem. 1996; 271: 12716–12723, [INFOTRIEVE], [CSA], [CROSSREF]
  • Deng G., Curriden S. A., Wang S., Rosenberg S., Loskutoff D. J. Is plasminogen activator inhibitor-1 the molecular switch that governs urokinase receptor-mediated cell adhesion and release? J. Cell Biol. 1996; 134: 1563–1571, [CSA], [CROSSREF]

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