Meat science and muscle biology symposium: Extracellular matrix regulation of skeletal muscle formation

Journal of Animal Science

Volumn 90, Issue 3, 2012, Pages 936-941

  Velleman, S G ^a  

^a OHIO STATE UNIVERSITY   (United States)

Author keywords

Extracellular matrix; Glypican 1; Muscle; Proteoglycan; Satellite cell; Syndecan 4

Indexed keywords

FIBROBLAST GROWTH FACTOR 2; PROTEOGLYCAN;

ANIMAL; ARTICLE; BIRD; CHEMISTRY; EXTRACELLULAR MATRIX; GENE EXPRESSION REGULATION; GENETICS; GROWTH, DEVELOPMENT AND AGING; METABOLISM; PHYSIOLOGY; SKELETAL MUSCLE;

ANIMALS; BIRDS; EXTRACELLULAR MATRIX; FIBROBLAST GROWTH FACTOR 2; GENE EXPRESSION REGULATION; MUSCLE, SKELETAL; PROTEOGLYCANS;

EID: 84857254979     PISSN: 00218812     EISSN: 15253163     Source Type: Journal    
DOI: 10.2527/jas.2011-4497     Document Type: Article

References (36)

1. Asakura, A., P. Seale, A. Girgis-Gabardo, and M. A. Rudnicki. 2002. Myogenic specifications of side population cells in skeletal muscle. J. Cell Biol. 159:123-134.
2. Brandan, E., D. J. Carey, J. Larrain, F. Melo, and A. Campos. 1996. Synthesis and processing of glypican during differentiation of skeletal muscle cells. Eur. J. Cell Biol. 71:170-176.
3. Brandan, E., and J. Larrain. 1998. Heparan sulfate proteoglycans during terminal skeletal muscle cell differentiation: Possible functions and regulation of their expression. Basic Appl. Myol. 8:107-114.
4. Brunetti, A., and I. D. Goldfine. 1990. Role of myogenin in myoblast differentiation and its regulation by fibroblast growth factor. J. Biol. Chem. 265:5960-5963.
5. Campos, A., R. Nǔnez, C. S. Roenigk, D. J. Carey, and E. Brandan. 1993. A lipid-anchored heparan sulfate proteoglycan is present in the surface of differentiated skeletal muscle cells. Isolation and biochemical characterization. Eur. J. Biochem. 216:587-595.
6. Charge, S. B., and M. A. Rudnicki. 2004. Cellular and molecular regulation of muscle regeneration. Physiol. Rev. 84:209-238.
7. Cornelison, D. D., M. S. Filla, H. M. Stanley, A. C. Rapraeger, and B. B. Olwin. 2001. Syndecan-3 and syndecan-4 specifically mark skeletal muscle satellite cells and are implicated in satellite cell maintenance and muscle regeneration. Dev. Biol. 239:79-94.
8. Cornelison, D. D., S. A. Wilcox-Adelman, P. F. Goetinck, H. Rauvala, A. C. Rapraeger, and B. B. Olwin. 2004. Essential and separable roles for syndecan-3 and syndecan-4 in skeletal muscle development and regeneration. Genes Dev. 18:2231-2236.
9. Dollenmeier, P., D. C. Turner, and H. M. Eppenberger. 1981. Proliferation and differentiation of chick skeletal muscle cells cultured in a chemically defined medium. Exp. Cell Res. 135:47-61.
10. Dransfield, E., and A. A. Sosnicki. 1999. Relationship between muscle growth and poultry meat quality. Poult. Sci. 78:743-746.
11. Fernandez, M. S., J. E. Dennis, R. F. Drushel, D. A. Carrino, K. Kimata, M. Yamagata, and A. I. Caplan. 1991. The dynamics of compartmentalization of embryonic muscle by extracellular matrix molecules. Dev. Biol. 147:46-61.
12. Fuentealba, L., D. J. Carey, and E. Brandan. 1999. Antisense inhibition of syndecan-3 expression during skeletal muscle differentiation accelerates myogenesis through a basic fibroblast growth factor-dependent mechanism. J. Biol. Chem. 274:37876-37884.
13. Helenius, A., and M. Aebi. 2001. Intracellular functions of N-linked glycans. Science 291:2364-2369.
14. Iozzo, R. V. 1998. Matrix proteoglycans: From molecular design to cellular function. Annu. Rev. Biochem. 67:609-652.
15. Iozzo, R. V., and A. D. Murdoch. 1996. Proteoglycans of the extracellular environment: Clues from the gene and protein side offer novel perspectives in molecular diversity and function. FASEB J. 10:598-614.
16. Larrain, J., G. Cizmeci-Smith, V. Troncoso, R. C. Stahl, D. J. Carey, and E. Brandan. 1997. Syndecan-1 expression is downregulated during myoblast terminal differentiation. Modulation by growth factors and retinoic acid. J. Biol. Chem. 272:18418-18424.
17. Liu, C., D. C. McFarland, and S. G. Velleman. 2006. Membraneassociated heparan sulfate proteoglycans are differentially expressed in the skeletal muscle of turkeys with different growth rates. Poult. Sci. 85:422-428.
18. Liu, X., D. C. McFarland, K. E. Nestor, and S. G. Velleman. 2003. Expression of fibroblast growth factor 2 and its receptor during skeletal muscle development from turkeys with different growth rates. Domest. Anim. Endocrinol. 25:215-229.
19. Liu, X., K. E. Nestor, D. C. McFarland, and S. G. Velleman. 2002. Developmental expression of skeletal muscle heparan sulfate proteoglycans in turkeys with different growth rates. Poult. Sci. 81:1621-1628.
20. Longley, R. L., A. Woods, A. Fleetwood, G. J. Cowling, J. T. Gallagher, and J. R. Couchman. 1999. Control of morphology, cytoskeleton and migration by syndecan-4. J. Cell Sci. 112:3421-3431.
21. Martinez-Maza, R., I. Poyatos, B. Lopez-Corcuera, E. Nunez, C. Gimenz, F. Zafra, and C. Aragon. 2001. The role of N-glycosylation in transport to the plasma membrane and sorting of the neuronal glycine transporter GLYT2. J. Biol. Chem. 276:2168-2173.
22. Mythreye, K., and G. C. Blobe. 2009. Proteoglycan signaling coreceptors: Roles in cell adhesion, migration and invasion. Cell. Signal. 21:1548-1558.
23. Nishimura, T., K. Ojima, A. Hattori, and K. Takahashi. 1997. Developmental expression of extracellular matrix components in intramuscular connective tissue of bovine semitendinosus muscle. Histochem. Cell Biol. 107:215-221.
24. Parodi, A. J. 2000. Role of N-oligosaccharide endoplasmic reticulum processing reactions in glycoprotein folding and degradation. Biochem. J. 348:1-13.
25. Rapraeger, A. C., A. Krufka, and B. B. Olwin. 1991. Requirement of heparan sulfate for bFGF-mediated fibroblast growth and myoblast differentiation. Science 252:1705-1708.
26. Rozario, T., and D. W. DeSimone. 2010. The extracellular matrix in development and morphogenesis: A dynamic view. Dev. Biol. 341:126-140.
27. Scott, J. E. 1995. Extracellular matrix, supramolecular organization and shape. J. Anat. 187:259-269.
28. Song, Y., D. C. McFarland, and S. G. Velleman. 2011. Role of syndecan- 4 side chains in turkey satellite cell growth and development. Dev. Growth Differ. 53:97-109.
29. Song, Y., K. E. Nestor, D. C. McFarland, and S. G. Velleman. 2010. Effect of glypican-1 covalently attached chains on turkey myogenic satellite cell proliferation, differentiation, and fibroblast growth factor 2 responsiveness. Poult. Sci. 89:123-134.
30. Thorsteinsdottir, S., M. Deries, A. S. Cachaco, and F. Bajanca. 2011. The extracellular matrix dimension of skeletal muscle development. Dev. Biol. 354:191-207.
31. Velleman, S. G., X. Liu, K. H. Eggen, and K. E. Nestor. 1999. Developmental regulation of proteoglycan synthesis and decorin expression during turkey embryonic skeletal muscle formation. Poult. Sci. 78:1619-1626.
32. Woods, A., and J. R. Couchman. 1994. Syndecan 4 heparan sulfate proteoglycan is a selectively enriched and widespread focal adhesion component. Mol. Biol. Cell 5:183-192.
33. Yan, K., J. Khoshnoodi, V. Ruotsalainene, and K. Tyggvason. 2002. N-linked glycosylation is critical for the plasma membrane localization of nephrin. J. Am. Soc. Nephrol. 13:1385-1389.
34. Young, H. E., D. A. Carrino, and A. I. Caplan. 1990. Change in synthesis of sulfated glycoconjugates during muscle development, maturation and aging in embryonic to senescent CBF-1 mouse. Mech. Ageing Dev. 53:179-193.
35. Zhang, X., C. Liu, K. E. Nestor, D. C. McFarland, and S. G. Velleman. 2007. The effect of glypican-1 glycosaminoglycan chains on turkey myogenic satellite cell proliferation, differentiation, and fibroblast growth factor 2 responsiveness. Poult. Sci. 86:2020-2028.
36. Zhang, X., K. E. Nestor, D. C. McFarland, and S. G. Velleman. 2008. The role of syndecan-4 and attached glycosaminoglycan chains on myogenic satellite cell growth. Matrix Biol. 27:619-630.