Hostname: page-component-78c5997874-j824f Total loading time: 0 Render date: 2024-11-05T16:14:52.204Z Has data issue: false hasContentIssue false
  • English
  • Français

Role of extracellular matrix molecules in shell formation and structure

Published online by Cambridge University Press:  18 September 2007

J. L. Arias  and
M. S. Fernandez
J. L. Arias
Affiliation:
Faculty of Veterinary and Animal Sciences, Universidad de Chile and Center for Advanced Interdisciplinary Research in Materials (CIMAT), Santiago, Chile
M. S. Fernandez
Affiliation:
Faculty of Veterinary and Animal Sciences, Universidad de Chile and Center for Advanced Interdisciplinary Research in Materials (CIMAT), Santiago, Chile
Get access

Abstract

Avian eggshells are natural composite bioceramics containing organic and inorganic phases. The occurrence and role of particular collagens and proteoglycans in the eggshell and their pattern of secretion by the oviduct is discussed. While type X collagen, the main constituent of the shell membranes, functions to inhibit their mineralisation, mammillan, a mammillary keratan sulphate proteoglycan, is involved in nucleation of the first calcite crystals of the shell and ovoglycan, a unique dermatan sulphate proteoglycan, is involved in the growth of the crystalline palisade. Eggshell biomineralisation is effected by specialised oviduct cell populations in a defined topographically and temporally regulated process.

Keywords

Biomineralisationeggshelldermatan sulphatekeratan sulphatemammillanoviductovoglycantype X collagen
Type
Research Article
Information
World's Poultry Science Journal , Volume 57 , Issue 4 , December 2001 , pp. 349 - 357
Copyright
Copyright © Cambridge University Press 2001

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Agarwal, M., Xiao, S.-Q. and Heuer, A.H. (1993) Decalcification studies on avian eggshell. Materials Research Society Symposium Proceedings 219–224CrossRefGoogle Scholar
Akagawa, M., Wako, Y. and Suyama, K. (1999) Lysyl oxidase coupled with catalase in egg shell membrane. Biochimica et Biophysica Acta 1434: 151160CrossRefGoogle ScholarPubMed
Arias, J.L. and Fernandez, M.S. (1995) Role of extracellular matrix on eggshell formation. Proceedings of the 6th European Symposium on the Qtiality of Eggs and Egg ProductsZaragozaSpain pp. 89–96Google Scholar
Arias, J.L., Fernandez, M.S., Dennis, J.E., and Caplan, A.I. (1991a) Collagens of the chicken eggshell membranes. Connective Tissue Research 26: 3745CrossRefGoogle ScholarPubMed
Arias, J.L., Fernandez, M.S., and Caplan, A.I. (1991b) Absence from avian eggshell membranes of epitopes recognized by anti-keratin antibodies. Poultry Science 70: 16471650CrossRefGoogle Scholar
Arias, J.L., Fernandez, M.S., Dennis, J.E., and Caplan, A.I. (1991c) The fabrication and collagenous substructure of the eggshell membrane in the isthmus of the oviduct. Matrix 11: 313330CrossRefGoogle ScholarPubMed
Arias, J.L., Fernandez, M.S., Laraia, V.J., Janicki, J., Heuer, A.H. and Caplan, A.I. (1991d) The avian eggshell as a model of biomineralization. Materials Research Society Symposium Proceedings 193–201CrossRefGoogle Scholar
Arias, J.L., Carrino, D.A., Fernandez, M.S., Rodriguez, J.P., Dennis, J.E., and Caplan, A.I. (1992) Partial biochemical and immunochemical characterization of avian eggshell extracellular matrices. Archives of Biochemistry and Biophysics 298: 293302.CrossRefGoogle ScholarPubMed
Arias, J.L., Fink, D.J., Xiao, S.-Q., Heuer, A.H. and Caplan, A.I. (1993) Biomineralization and eggshells: cell-mediated acellular compartments of mineralized extracellular matrix. International Review of Cytology 145: 217250CrossRefGoogle ScholarPubMed
Arias, J.L., Nakamura, O., Fernandez, M.S., Wu, J.J., Knigge, P., Eyre, D.R. and Caplan, A.I. (1997a) Role of type X collagen on experimental mineralization of eggshell membranes. Coivmtive Tissue Research 36: 2133CrossRefGoogle ScholarPubMed
Arias, J.L., Cataldo, M., Fernandez, M.S. and Kessi, E. (1997b) Effect of beta-aminoproprio-nitrile on eggshell formation. British Poultry Science 38: 349354CrossRefGoogle ScholarPubMed
Baker, J.R. and Balch, D.A. (1962) A study of the organic material of hen's eggshell. Biochemical Journal 82: 352361CrossRefGoogle Scholar
Breen, P.C. and De Bruyn, P.H. (1969) The fine structure of the secretory cells of the uterus (shell gland) of the chicken. Journal of Morphology 128: 3566CrossRefGoogle ScholarPubMed
Carrino, D.A., Dennis, J.E., Wu, T.M., Arias, J.L., Fernandez, M.S., Rodriguez, J.P., Fink, D.A., Heuer, A.H. and Caplan, A.I. (1996) The avian eggshell extracellular matrix as a model for biomineralization. Connective Tissue Research 35: 325329CrossRefGoogle Scholar
Carrino, D.A., Rodriguez, J.P. and Caplan, A.I. (1997) Dermatan sulfate proteoglycans from the mineralized matrix of the avian eggshell. Connective Tissue Research 36: 175193CrossRefGoogle ScholarPubMed
Chowdhury, S.D. and Davis, R.H. (1995) Influence of dietary osteolathyrogens on the ultrastructure of shell and membranes of eggs from laying hens. British Poultry Science 36: 575583CrossRefGoogle ScholarPubMed
Dennis, J.E., Xiao, S.-Q., Agarwal, M., Fink, D.J., Heuer, A.H. and Caplan, A.I. (1996) Microstructure of matrix and mineral components of eggshells from White Leghorn chickens (Gallus domesticus). Journal of Morpkolology 228: 2873063.0.CO;2-#>CrossRefGoogle Scholar
Dennis, J.E., Carrino, D.A., Yamashita, K. and Caplan, A.I. (2000) Monoclonal antibodies to mineralized matrix molecules of the avian eggshell. Matrix Biology 19: 683692CrossRefGoogle ScholarPubMed
Dieckert, J.W., Dieckert, M.C. and Creger, C.R. (1989) Calcium reserve assembly: a basic structural unit of calcium reserve system of the hen eggshell. Poultry Science 68: 15691584CrossRefGoogle Scholar
Dominguez-Vera, J.M., Gautron, J., Garcia-Ruiz, J.M. and Nys, Y. (2000) The effect of avian uterine fluid on the growth behavior of calcite crystals. Poultry Science 79: 901907CrossRefGoogle ScholarPubMed
Draper, M.H., Davidson, M.F., Wyburn, G.M. and Johnston, H.S. (1972) The fine structure of the fibrous membrane forming region of the isthmus of the oviduct of Gallus domesticus. Quarterly Journal of Experimental Physiology 57: 297309CrossRefGoogle ScholarPubMed
Fernandez, M.S. and Arias, J.L. (1999) Ultrastructural localization of molecules involved in eggshell formation in the avian oviduct. Proceedings of the 8th European Symposium on the Quality of Eggs and Egg ProductsBolognaItaly pp. 81–86Google Scholar
Fernandez, M.S. and Arias, J.L. (2000) La cáscara del huevo: Un modelo de biomineralización. Monograf'as de Medicina Veterinaria 20: 5060Google Scholar
Fernandez, M.S., Araya, M. and Arias, J.L. (1997) Eggshells are shaped by a precise spatiotemporal arrangement of sequentially deposited macromolecules. Matrix Biology 16: 1320CrossRefGoogle ScholarPubMed
Fernandez, M.S., Moya, A., Lopez, L. and Arias, J.L. (2001) Secretion pattern, ultrastructural localization and function of extracellular matrix molecules involved in eggshell formation. Matrix Biology 19: 793803CrossRefGoogle Scholar
Fisher, L.W. and Schraer, H. (1980) The glycosaminoglycans of estrogen induced medullary bone in Japanese quail. Arckives of Biochemistry and Biophysics 205: 396403CrossRefGoogle ScholarPubMed
Fisher, L.W. and Schraer, H. (1982) Keratan sulfate proteoglycan isolated from the estrogen induced medullary bone in Japanese quail. Comparative Biochemistry and Physiology 728: 227232Google Scholar
Fraser, A.C., Bain, M.M. and Solomon, S.E. (1998) Organic matrix morphology and distribution in the palisade layer of eggshells sampled at selected periods during lay. British Poultry Science 39: 225228CrossRefGoogle ScholarPubMed
Fraser, A.C., Bain, M.M. and Solomon, S.E. (1999) Transmission electron microscopy of the vertical crystal layer and cuticle of the eggshell of the domestic fowl. British Poultry Science 40: 626631CrossRefGoogle ScholarPubMed
Gautron, J., Bain, M., Solomon, S. and Nys, Y. (1996) Soluble matrix of hen's eggshell extracts changes in vitro the rate of calcium carbonate precipitation and crystal morphology. British Poultry Science 37: 853866CrossRefGoogle ScholarPubMed
Gautron, J., Hincke, M.T. and Nys, Y. (1997) Precursor matrix proteins in the uterine fluid change with stages of eggshell formation in hens. Connective Tissue Research 36: 195210CrossRefGoogle ScholarPubMed
Gautron, J., Hincke, M.T., Panheleux, M., Garcia-Ruiz, J. and Nys, Y. (1998) Identification and characterization of matrix proteins from hen's eggshell. In: Chemistry and Biology of Mineralized Tissues (Goldberg, M., Boskey, A. and Robinson, C., Eds), pp. 1923Google Scholar
Harris, E.D., Blount, J.E. and Leach, R.M. Jr (1980) Localization of lysyloxidase in hen oviduct: implications in egg shell membrane formation and composition. Science 208: 5556CrossRefGoogle Scholar
Heuer, A.H., Fink, D.J., Laraia, V.J., Arias, J.L., Calvert, P.D., Kendall, K., Messing, G.L., Blackwell, J., Rieke, P.C., Thompson, D.H., Wheeler, A.P., Veis, A. and Caplan, A.I. (1992) Innovative materials processing strategies: a biomimetic approach. Science 255: 10981105CrossRefGoogle ScholarPubMed
Hincke, M.T. (1995) Ovoalbumin is a component of the chicken eggshell matrix. Connective Tissue Research 31: 227233CrossRefGoogle Scholar
Hincke, M.T., Tsang, C.P.W., Courtney, M., Hill, V. and Narbaitz, R. (1995) Purification and immunochemistry of a soluble matrix protein of the chicken eggshell (ovocleidin 17). Calcified Tissue International 56: 578583CrossRefGoogle ScholarPubMed
Hincke, M.T., Gautron, J., Tsang, C.P., Mckee, M.D. and Nys, Y. (1999) Molecular cloning and ultrastructural localization of the core protein of an eggshell matrix proteoglycan, ovocleidin-116. Journal of Biological Chemistry 274: 3291532923CrossRefGoogle ScholarPubMed
Hincke, M.T., Gautron, J., Panheleux, M., Garcia-Ruiz, J., Mckee, M.D. and Nys, Y. (2000) Identification and localization of lysozyme as a component of eggshell membranes and eggshell matrix. Matrix Biology 19: 443453CrossRefGoogle ScholarPubMed
Kielty, C.M., Kwan, A.P.L., Holmes, D.F., Schor, S.L. and Grant, M.E. (1985) Type X collagen, a product of hypertrophic chondrocytes. Biochemical Journal 227: 545554CrossRefGoogle ScholarPubMed
Lavelin, I., Yarden, N., Ben-Bassat, S., Bar, A. and Pines, M. (1998) Regulation of osteopontin gene expression during egg shell formation in the laying hen by mechanical strain. Matrix Biology 17: 615623CrossRefGoogle ScholarPubMed
Lavelin, I., Meiri, N. and Pines, M. (2000) New insight in eggshell formation. Poultry Science 79: 10141017CrossRefGoogle ScholarPubMed
Mann, K. (1999) Isolation of a glycosylated form of the chicken eggshell protein ovocleidin and determination of the glycosylation site. Alternative glycosylation/phosphorilation at an N-glycosylation sequon. FEBS Letters 463: 1214CrossRefGoogle Scholar
Mann, K. and Siedler, F. (1999) The amino acid sequence of ovocleidin 17, a major protein of the avian eggshell calcified layer. Biochemistry and Molecular Biology International 47: 9971007Google Scholar
Masshoff, W. and Stoplmann, H.J. (1961) Licht- und elektronenmikroscopische Untersuchungen an der Schalenhaut und Kalkschale des Hühnereis. Zeitschrift. Zellforsch. Mikrosk. Anat. 55: 818832CrossRefGoogle Scholar
Nakano, T., Ikawa, N. and Ozimek, L. (2001) Extraction of glycosaminoglycans from chicken eggshell. Poultry Science 80: 681684.CrossRefGoogle ScholarPubMed
Nys, Y., Zawadzki, J., Gautron, J. and Mills, A.D. (1991) Whitening of brown-shelled eggs: mineral composition of uterine fluid and rate of protoporphyrin deposition. Poultry Science 70: 12361245CrossRefGoogle ScholarPubMed
Nys, Y., Hincke, M.T., Arias, J.L., Garcia-Ruiz, J.M. and Solomon, S.E. (1997) Biochemical characterisation and in vitro functional urouerties of eeeshell matrix extracts and of uterine fluid in hens. Proceedings of the 7th European Symposium on the Quality of Eggs and Egg ProductsPoznanPoland pp. 107–126Google Scholar
Nys, Y., Hincke, M.T., Arias, T.L., Garcia-Rue, I.M. and Solomon, S.E. (1999) Avian eggshell mineralization. Poulty and Auian Biology Reviews 10: 142166Google Scholar
Panheleux, M., Bain, M.M., Fernandez, M.S., Morales, I., Gautron, J., Arias, J.L., Solomon, S.E., Hincke, M.T. and Nys, Y. (1999a) Organic matrix composition and ultrastructure of eggshell: a comparative study. British Poultry Science 40: 240252CrossRefGoogle ScholarPubMed
Panheleux, M., Kalin, O., Gautron, J. and Nys, Y. (1999b) Features of eggshell formation in guinea fowl: kinetics of shell deposition, uterine protein secretion and uterine histology. British Poultry Science 40: 632643CrossRefGoogle ScholarPubMed
Panheleux, M., Nys, Y., Williams, J., Gautron, J., Boldicke, T. and Hincke, M.T. (2000) Extraction and quantification by ELISA of eggshell organic matrix proteins (ovocliedin-17, ovalbumin, ovotransferrin) in shell from young and old hens. Poultry Science 79: 580588CrossRefGoogle Scholar
Pines, M., Knopov, V. and Bar, A. (1994) Involvement of osteopontin in egg shell formation in the laying chicken. Matrix Biology 14: 763771Google Scholar
Roberts, J.R. and Brackpool, C.E. (1994) The ultrastructure of avian egg shells. Poultry Science Reviews 5: 245272Google Scholar
Robinson, D.S. and King, N.R. (1963) Carbonic anhydrase and formation of the hen's egg shell. Nature 199: 497498CrossRefGoogle ScholarPubMed
Schmid, T.M. and Linsenmayer, T.F. (1987) Type X collagen. In: Structure and Function of Collagen Types (Mayne, R. and Burgeson, R.E., Eds), Academic Press, Boston, pp. 223259Google Scholar
Simons, P.C.M. (1971) Ultrastructure of the hen eggshell and its physiological interpretation. Centre for Agricultural Publishing and Documentation, Wageningen, Netherland, pp. 190Google Scholar
Solomon, S.E. (1983) Oviduct. In: Physiology and Biochemistry of Domestic Fowl (Freeman, B.M., Ed.), Academic Press, London, pp. 379419Google Scholar
Solomon, S.E. (1991) Egg and Eggshell Quality. Wolfe Publications Ltd, LondonGoogle Scholar
Solomon, S.E. (1999) An egg ist ein ei, es un huevo, est un oeuf. British Poultry Science 40: 511CrossRefGoogle ScholarPubMed
Starcher, B.C. and King, G.S. (1980) The presence of desmosine and isodesmosine in eggshell membrane protein. Connective Tissue Research 8: 5355CrossRefGoogle ScholarPubMed
Stemberger, B.H., Mueller, W.J. and Leach, R.M. Jr (1977) Microscopic study of the initial stages of egg shell calcification. Poultry Science 56: 537543CrossRefGoogle Scholar
Wu, T.M., Fink, D.J., Arias, J.L., Rodriguez, J.P., Heuer, A.H. and Caplan, A.I. (1992) The molecular control of avian eggshell mineralization. In: Chemistry and Biology of Mineralized Tissue (Slavkin, H.C. and Price, P., Eds), Elsevier, Amsterdam, pp. 133141Google Scholar
Wu, T.M., Rodriguez, J.P., Fink, D.J., Carrino, D.A., Blackwell, J., Caplan, A.I. and Heuer, A.H. (1994) Crystallization studies on avian eggshell membranes. Implications for the molecular factors controlling eggshell formation. Matrix Biology 14: 507513CrossRefGoogle Scholar
Wyburn, G.M., Johnston, H.S., Draper, M.H. and Davidson, M.F. (1973) The ultrastructure of the shell forming region of the oviduct and the development of the shell of Gallus domesticus. Quarterly Iournal of Experimental Physiology 58: 142151Google ScholarPubMed