Synopsis
Treatment of tissue sections with enzymes which degrade specific types of glycosaminoglycans should provide a means for localizing glycosaminoglycans in tissue sections. The feasibility of this technique was examined by utilizing endogenously labelled glycosaminoglycans in chick and quail embryos. Less than 8% of the total glycosaminoglycans appear to be lost non-specifically during fixation and dehydration. BothStreptomyces hyaluronidase and chondroitinase ABC degraded more than 90% of their respective substrates and demonstrated minimal non-specific extraction of other glycosaminoglycans. The selectivity of chondroitinase ABC for sulphated glycosaminoglycans was substantially increased by raising the pH of the incubation buffer to 8.6. At this pH, chondroitinase ABC degraded negligible amounts of hyaluronic acid. Use of bothStreptomyces hyaluronidase and chondroitinase ABC confirmed that embryonic hyaluronic acid binds Alcian Blue under conditions that were previously believed specific for sulphated glycosaminoglycans. We suggest that this may be due to the increased molecular weight of embryonic hyaluronic acid compared to the hyaluronic acid in adult tissues. The results presented suggest that treatment of adjacent sections with buffer, chondroitinase ABC at pH 8.6, andStreptomyces hyaluronidase and subsequent staining with Alcian Blue provides a method for localizing and quantitating glycosaminoglycans in tissue sections.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Banerjee, S. D., Cohn, R. H. &Bernfield, M. R. (1977). Basal lamina of embryonic salivary epithelia. Production by the epithelium and role in maintaining lobular morphology.J. Cell Biol. 73, 445–63.
Bernfield, M. R., Cohn, R. H. &Banerjee, S. D. (1973). Glycosaminoglycans and epithelial organ formation.Am. Zool. 13, 1067–83.
Bitter, T. &Muir, H. M. (1962). A modified uronic acid carbazole reaction.Analyt. Biochem,4, 330–4.
Breen, M., Richardson, R., Bondareff, W. &Weinstein, H. G. (1973). Acidic glycosaminoglycans in developing sterno-costal cartilage of the hydrocephalic (ch +ch +) mouse.Biochim. Biophys. Acta 304, 828–36.
Conrad, G. W. &Hart, G. W. (1975). Heparan sulfate biosynthesis by embryonic tissues and primary fibroblast populations.Dev. Biol. 44, 253–69.
Derby, M. A. (1978). Analysis of glycosaminoglycans within the extracellular environments encountered by migrating neural crest cells.Dev. Biol. (in press).
Fisher, M. &Solursh, M. (1977). Glycosaminoglycan localization and role in maintainance of tissue spaces in early chick embryo.J. Embryol. exp. Morph. 42, 195–207.
French, J. E. &Benditt, E. P. (1953). The histochemistry of connective tissue: II. The effect of proteins on the selective staining of mucopolysaccharides by basic dyes.J. Histochem. Cytochem. 1, 321–5.
Hamburger, V. &Hamilton, H. L. (1951). A series of normal stages in the development of the chick embryo.J. Morphol. 88, 49–92.
Hamburger, V. (1960).A Manual of Experimental Embryology. Chicago: University of Chicago Press.
Hata, R. &Nagai, Y. (1972). A rapid and micro method for separation of acidic glycosaminoglycans by two-dimensional electrophoresis.Anal. Biochem. 45, 462–8.
Humanson, G. L. (1972).Animal Tissue Techniques. San Francisco: W. H. Freeman and Company.
Hynes, R. O. (1973). Alteration of cell-surface proteins by viral transformation and proteolysis.Proceedings of the National Academy of Sciences (U.S.A.) 70, 3170–4.
Kvist, T. N. &Finnegan, C. B. (1970a). The distribution of glycosaminogly cans in the axial region of the developing chick embryo. I. Histochemical analysis.J. Exp. Zool. 175, 221–40.
Kvist, T. N. &Finnegan, C. V. (1970b). The distribution of glycosaminoglycans in the axial regions of the developing chick embryo. II. Biochemical analysis.J. Exp. Zool. 175, 241–58.
Lev, R. &Spicer, S. S. (1964). Specific staining of sulfate groups with alcian blue at low pH.J. Histochem. Cytochem. 12, 309.
Markwald, R. R., Fitzharris, T. P. &Smith, W. N. A. (1975). Structural analysis of endocardial cytodifferentiation.Devl. Biol. 42, 160–80.
Newton, D. J., Scott, J. E. &Whiteman, P. (1974). The estimation of acid glycosaminoglycan-alcian blue complexes eluted from electrophoretic strips.Analyt. Biochem. 62, 268–73.
O'Hare, M. J. (1973). A histochemical study of sulfated glycosaminoglycans associated with the somites of the chick embryo.J. Embryol. Exp. Morph. 29, 197–208.
Ohya, T. &Kaneko, Y. (1970). Novel hyaluronidase fromStreptomyces.Biochim. Biophys. Acta 198, 607–9.
Ornstein, L. (1952). The distributional error in microspectrophotometry.Lab. Invest. 1, 250–62.
Patau, K. (1952). Absorption microphotometry of irregular-shaped objects.Chromasoma 5, 341–62.
Pearse, A. G. E. (1968).Histochemistry. Theoretical and Applied. Vol. I. Baltimore: Williams and Wilkins.
Van der Ploeg, M. &Van Duijn, P. (1964). 5, 6-dihydroxyindole as a substrate in histochemical peroxidase reaction.J. R. microsc. Soc. 83, 415–23.
Pousty, I., Bari-Khan, M. A. &Butler, W. F. (1975). Leaching of glycosaminoglycans from tissues by the fixatives formalin-saline and formal-centrimide.Histochem. J. 7, 361–5.
Pratt, R. M., Larsen, M. A. &Johnston, M. C. (1975). Migration of cranial neural crest cells in a cell-free hyaluronate-rich matrix.Devl. Biol. 44, 298–305.
Quintarelli, G., Scott, J. E. &Dellovo, M. C. (1964). The chemical and histochemical properties of alcian blue. II. Dye binding of tissue polyanions.Histochemistry 4, 86–98.
Rhodes, R. K. &Elmer, W. A. (1975). Aberrant metabolism of matrix components in neonatal fibular cartilage of brachypod (bpH) mice.Devl. Biol. 46, 14–27.
Saito, H., Yamagata, T. &Suzuki, S. (1968). Enzymatic methods for the determination of small quantities of isomeric chondroitin sulfates.J. Biol. Chem. 243, 1536–42.
Scott, J. E. &Dorling, J. (1965). Differential staining of acid glycosaminoglycans (mucopolysaccharides) by alcian blue in salt solutions.Histochemie 5, 221–33.
Scott, J. E., Dorling, J. &Stockwell, R. A. (1968). Reversal of protein blocking of basophilia in salt solutions: implications in the localization of polyanions using alcian blue.J. Histochem. Cytochem. 16, 383–6.
Scott, J. E. &Stockwell, R. A. (1967). On the use and abuse of the critical electrolyte concentration approach to the localization of tissue polyanions.J. Histochem. Cytochem. 15, 11–113.
Scott, J. E. &Willett, I. H. (1966). Binding of cationic dyes to nucleic acids and other biological polyanions.Nature 209, 985–7.
Spicer, S. S., Horn, R. G. &Leppi, T. J. (1967). Histochemistry of connective tissue mucopolysaccharides. In:Symposium on Connective Tissue Research Methods. Ch. 17. Baltimore, Maryland: Williams and Wilkins.
Szirmai, J. A. (1963). Quantitative approaches in the histochemistry of mucopolysaccharides.J. Histochem. Cytochem. 11, 24–34.
Tas, J. (1977) Polyacrylamide films as a tool for investigating qualitiative and quantitative aspects of the staining of glycosaminoglycans with basic dyes.Histochem. J. 9, 267–76.
Toole, B. P. &Gross, J. (1971). The extracellular matrix of the regenerating newt limb: synthesis and removal of the hyaluronate prior to differentiation.Devl. Biol. 25, 57–77.
Toole, B. P. &Trelstad, R. L. (1971). Hyaluronate production and removal during corneal development in the chick.Devl. Biol. 26, 28–35.
Weston, J. A., Pintar, J. E., Derby, M. A. &Nichols, D. H. (1977). The morphogenesis of spinal ganglia from neural crest cells. In:Progress in Clinical and Biological Research. New York: Alan R. Liss.
Whiteman, P. (1973). The quantitative measurement of alcian blue-glycosaminoglycan complexes.Biochem. J. 131, 343–50.
Yamada, K. (1971). Effects of novel (Streptomyces) hyaluronidase digestion upon some mucosaccharide stainings of the cartilages and aortas in the rabbit and rat.Histochemistry 27, 277–89.
Yamada, K. (1973). The effect of digestion withStreptomyces hyaluronidase upon certain histochemical reactions of hyaluronic acid-containing tissues.J. Histochem. Cytochem. 21, 794–803.
Yamada, K. (1974). The effect of digestion with chondroitinases upon certain histochemical reactions of mucosaccharide-containing tissues.J. Histochem. Cytochem. 22, 266–75.
Yamada, K. &Hirano, K. (1973). The histochemistry of hyaluronic acidcontaining mucosubstances.J. Histochem. Cytochem. 21, 469–72.
Yamagata, T., Saito, H., Habuchi, O. &Suzuki, S. (1968). Purification and properties of bacterial chondroitinases and chondrosulfatases.J. Biol. Chem. 243, 1523–35.
Zugibe, F. T. (1962). The demonstration of the individual acid mucopolysaccharides in human aortas, coronary arteries, and cerebral arteries. I. The methods.J. Histochem. Cytochem. 10, 441–7.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Derby, M.A., Pintar, J.E. The histochemical specificity ofStreptomyces hyaluronidase and chondroitinase ABC. Histochem J 10, 529–547 (1978). https://doi.org/10.1007/BF01003135
Received:
Revised:
Issue Date:
DOI: https://doi.org/10.1007/BF01003135