Summary
A quantitative histochemical method to determine the Km and Vmax of α-glucosidases in the intestinal epithelium without disruption of the cellular structure is described. 2-Naphthyl-α-D-glucoside was used as substrate and hexazonium-p-rosaniline as coupling agent. Using a Leitz MPV2 microdensitometer and a field measuring 4×4 μm, and reading the test samples against a blank focused on the lamina propria, we observed that the intensity of the colour was a linear function of both the incubation time up to 20 min, and the thickness of the slice up to 20 μm. The ratio between the extinction at the absorption maximum and at a second wavelength was constant, whatever the intensity of the colour.
By determining the relationship between the extinction and the substrate concentration under standard conditions (slice thickness of 10 μm and incubation time of 10 min), we obtained a saturation curve described by a Km of 0.68±0.038 mM and a Vmax of 1.41±0.039 Aλ480·10−2·μm−1·min−1. When the hydrolysis of the same substrate by a homogenate of jejunal mucosa was examined biochemically under comparable conditions, a Km of 0.64±0.012 mM and a Vmax of 57.3±0.70 mU/mg protein were obtained. When the natural substrate, sucrose, was used in the biochemical study, a Km of 15±3.5 mM and a Vmax of 149±24.7 mU/mg protein were obtained.
These experiments demonstrate that the kinetic constants of enzyme reactions can be assessed with equal accuracy on histochemical sections as in tissue homogenates.
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References
Abrahamson, D., Rigatuso, J., Lazarow, A.: Cytophotometric quantitation of glucose-6-phosphatase activity in rat liver. J. Histochem. Cytochem. 17, 107–109 (1968)
Adams, J., Leichter, J.: Effect of protein deficient diets with various amounts of carbohydrate on intestinal disaccharidase activties in the rat. J. Nutr. 103, 1716–1722 (1973)
Altmann, F.P.: Quantitative dehydrogenase histochemistry with special reference to the pentose shunt dehydrogenases. Prog. Histochem. Cytochem. 4, 225–273 (1972)
Altmann, F.P.: The quantification of formazans in tissue sections by microdensitometry. II. The use of BPST, a new tetrazolium salt. Histochem. J. 8, 501–506 (1976a)
Altmann, F.P.: The quantification of formazans in tissue sections by microdensitometry. III. The effect of objective power and scanning spot size. Histochem. J. 8, 507–511 (1976b)
Blair, D.G.R., Yakimets, W., Tuba, J.: Rat intestinal sucrase. II. The effects of rat age and sex and of diet on sucrase activity. Can. J. Biochem. Physiol. 41, 917–929 (1963)
Both, N.J. de, Plaisier, H.: The influence of changing cell kinetics on functional differentiation in the small intestine of the rat. A study of enzymes involved in carbohydrate metabolism. J. Histochem. Cytochem. 22, 352–360 (1974)
Bruni, C.B., Auricchio, S., Covelli, I.: Acid α-D-glucosidase glucohydrolase from cattle liver. Isolation and properties. J. Biol. Chem. 244, 4735–4742 (1969)
Castro, G.A., Copeland, E.M., Dudrick, J.S., Johnson, L.R.: Intestinal disaccharidase and peroxidase activities in parenterally nourished rats. J. Nutr. 105, 776–781 (1975)
Cleland, W.W.: The statistical analysis of enzyme kinetic data. Adv. Enzymol. 29, 1–32 (1967)
Dahlqvist, A.: Method for assay of intestinal disaccharidases. Anal. Biochem. 7, 18–25 (1964)
Dahlqvist, A.: Assay of intestinal disaccharidases. Anal. Biochem. 22, 99–107 (1968)
Dahlqvist, A.: Disaccharidase. In: Methoden der enzymatischen Analyse Bergmeyer, H.-U. (Hrsg.), pp. 950–957. Weinheim, New York: Verlag Chemie 1974
Deren, J. J., Broitman, S.A., Zamcheck, N.: Effect of diet upon intestinal disaccharidases and disaccharide absorption. J. Clin. Invest. 46, 186–195 (1967)
Dixon, M., Webb, E.C.: Enzymes. London: Longmans 1964
Dongen, J.M. van, Kooyman, J., Visser, W.J., Holt, S.J., Galjaard, H.: The effect of increased crypt cell proliferation on the activity and subcellular localization of esterases and alkaline phosphatase in the rat small intestine. Histochem. J. 9, 61–75 (1977)
Dowling, R.H.: The influence of luminal nutrition on intestinal adaptation after small bowel resection and bypass. In: Intestinal adaptation. Dowling, R.H., Riecken, E.O. (eds.), pp. 35–46. Stuttgart: Schattauer 1974
Duijn, P. van, Pascoe, E., Ploeg, M. van der: Theoretical and experimental aspects of enzyme determination in a cytochemical model system of polyacrylamide films containing alkaline phosphatase. J. Histochem. Cytochem. 15, 631–645 (1967)
Ewing, G.W., Maschka, A.: Physikalische Analysen-und Untersuchungsmethoden in der Chemie. Wien, Heidelberg: Dipl.-Ing. Rudolf Bohmann, Industrie und Fachverlag 1964
Felgenhauer, K., Glenner, G.G.: Quantitation of tissue bound renal aminopeptidase by a microdensitometric technique. J. Histochem. Cytochem. 14, 53–63 (1966)
Fortin-Magana, R., Hurwitz, R., Herbst, J.J., Kretschmer, N.: Intestinal Enzymes: Indicators of proliferation and differentiation in the jejunum. Science 167, 1627–1628 (1970)
Frasch, A.C.C., Itoiz, M.E., Cabrini, R.L.: Microspectrophotometric quantitation of the diaminobenzidine reaction for histochemical demonstration of cytochrome oxidase activity. J. Histochem. Cytochem. 26, 157–162 (1978)
Galjaard, H., Bootsma, D.: The regulation of cell proliferation and differentiation in intestinal epithelium. II. A quantitative histochemical and autoradiographic study after low doses of X-irradiation. Exp. Cell Res. 58, 79–92 (1969)
Galustyan, G.E., Prianishnikov, U.A.: Cytospectrophotometric study of the kinetics of histochemical reaction of GABA-transaminase in cryostat sections of rat cerebellar cortex. Histochemistry 57, 77–86 (1978)
Garcia, A.M., Jorio, R.: A one-wave length, two-area method in cytophotometry for cells in smears or prints. In: Introduction to quantitative cytochemistry. Wied, G.L. (ed.), pp. 239–245. New York: Academic Press 1966
Gossrau, R.: Histochemische und biochemische Untersuchung der α-Glucosidasen mit 2-Naphthyl-α-D-Glucosid. Histochemistry 49, 193–211 (1976a)
Gossrau, R.: Localization of glucosidases with naphthyl-substrates. Histochem. J. 8, 271–282 (1976b)
Gossrau, R.: Über die Eignung von Naphthyl-α-L-Fucosiden zur Untersuchung der α-L-Fucosidase Histochemistry 52, 259–271 (1977)
Gutschmidt, S.: Untersuchungen zur mikrodensitometrischen Charakterisierung von Brüstensaumdisaccharidasen “in situ”. Methodik und Ergebnisse am Beispeil von vier α-und β-Glucosidase nachweisen. Acta Histochem. (Jena) Suppl. 21, (1979, in press)
Gutschmidt, S., Lorenz-Meyer, H., Menge, H., Riecken, E.O.: Enzymkinetische Untersuchungen am Gewebsschnitt von Biopsiematerial — eine neue diagnostische Möglichkeit zur Erfassung von Enzymveränderungen am menschlichen Dünndarmresorptionsepithel. Verh. Dtsch. Ges. Inn. Med. 84, 1001–1006 (1978)
Gutschmidt, S., Lorenz-Meyer, H., Riecken, E.O., Menge, H.: Mikrodensitometrische Untersuchungen zur Charakterisierung von Enzymaktivitäten am Gewebsschnitt mittels enzymhistochemischer Farbreaktionen. Acta Histochem. (Jena), Suppl. 20, 249–259 (1979a)
Gutschmidt, S., Kaul, W., Menge, H., Lorenz-Meyer, H., Riecken, E.O.: Kinetic characterization of brush-border-membrane disaccharidases in the jejunal mucosa using quantitative cytochemistry. Gastroentérol. Clin. Biol. (1979b, in press)
Harrison, D.D., Webster, H.L.: Proximal to distal variations in enzymes in the rat intestine. Biochim. Biophys. Acta 244, 432–436 (1971)
Hietanen, E.: Sex variation in the activities of mucosal hydrolytic enzymes in the small intestine of the rat. Digestion 13, 33–41 (1975)
Holt, S.J., O'Sullivan, D.G.: Studies in enzyme cytochemistry. I. Principles of cytochemical staining methods. Proc. R. Soc. 148, 465–480 (1958)
Holt, S.J., Withers, R.F.J.: Studies in enzyme cytochemistry. V. Appraisal of indigonetic reactions for esterase localization. Proc. R. Soc. 148, 520–532 (1958)
Hopsu, V.K., McMillan, P.J.: Quantitative characterization of a histochemical enzyme system. J. Histochem. Cytochem. 12, 315–324 (1964)
Imondi, A.R., Balis, M.E., Lipkin, M.: Changes in enzyme levels accompanying differentiation of intestinal epithelial cells. Exp. Cell Res. 58, 323–330 (1969)
Kaul, W.: Dissertation (1979, in Vorbereitung).
Kolínská, J., Kraml, J.: Separation and characterisation of sucrase-isomaltase and glucoamylase of rat intestine. Biochim. Biophys. Acta, 284, 235–247 (1972)
Kreyszig, E.: Statistische Methoden und ihre Anwendung. Göttingen: Vandenhoeck und Ruprecht, 1977
Levine, G.M., Deren, J.J., Steiger, E., Zinno, R.: Role of oral intake in maintenance of gut mass and disaccharidase activity. Gastroenterology 67, 975–982 (1974)
Lojda, Z., Ploeg, M. van der, Duijn, P. van: Phosphates of the naphthol AS series in the quantitative determination of alkaline and acid phosphatase activities “in situ” studied in polyacrylamide membrane model systems and by cytospectrophotometry. Histochemie 11, 13–32 (1967)
Lojda, Z., Slaby, J., Kraml, J., Kolínská, J.: Synthetic substrates in the histochemical demonstration of intestinal disaccharidases. Histochemie 34, 361–369 (1973)
Lojda, Z., Gossrau, R., Schiebler, T.H.: Enzymhistochemische Methoden. Berlin-Heidelberg-New York: Springer 1976
Lowry, O.H., Rosebrough, N.J., Farr, A.L., Randall, R.J.: Protein measurement with the folin phenol reagent. J. Biol. Chem. 193, 265–275 (1951)
Mahmood, A., Alvarado, F.: The activation of intestinal brush border sucrase by alkali metal ions: An allosteric mechanism similar to that for the Na+-activation of non-electrolyte transport systems in intestine. Arch. Biochem. Biophys. 168, 585–593 (1975)
Mayall, B.H., Mendelsohn, M.L.: Errors in absorption cyto-histochemistry: Some theoretical and practical considerations. In: Introduction to quantitative cytochemistry Wied, G.L., Bahr, B.F. (eds.), Vol. II, pp. 171–194. New York: Academic Press 1970
Nachlas, M.M., Goldstein, T.P., Rosenblatt, D.H., Kirsch, M., Seligman, A.M.: Influence of chemical structure on the rate of azo coupling and its significance in histochemical methodology. J. Histochem. Cytochem. 7, 50–65 (1959)
Nolte, J., Pette, D.: Quantitative microscope-photometric determination of enzyme activities in cryostat sections. In: Recent advances in quantitative histo-and cytochemistry. Dubach, U.C., Schmidt, U. (eds.) pp. 54–62. Bern: Huber, 1971
Nordström, C., Dahlqvist, A., Josefsson, L.: Quantitative determination of enzymes in different parts of the villi and crypts of rat small intestine. Comparison of alkaline phosphatase, disaccharidases and dipeptidases. J. Histochem. Cytochem. 15, 713–721 (1968)
Nordström, C., Dahlqvist, A.: Quantitative distribution of some enzymes along the villi and crypts of human small intestine. Scand. J. Gastroenterol. 8, 407–416 (1973)
O'Sullivan, D.G.: Quantitative potentialities in enzyme cytochemistry. Modified Michaelis-Menten rate law applicable when a substrate diffuses slowly into an enzyme site. J. Theor. Biol. 2, 117–128, (1962)
Ploem, J.S., Sterke, J.A. de, Bonnet, J., Wasmund, H.: A microspectrofluorometer with epi-illumination operated under computer control. J. Histochem. Cytochem. 22, 668–677 (1974)
Riecken, E.O., Goebell, H., Bode, Ch.: Untersuchungen zum Einfluß von tiefen Temperaturen und Speicherdauer auf einige histochemisch nachweisbare Enzymaktivitäten in Leber, Niere und Jejunum der Ratte. Histochemie 20, 225–233 (1969)
Riecken, E.O., Menge, H.: Nutritive effects of food constituents on the structure and function of the intestine. Acta Hepatogastroenterol. (Stuttg.), 24, 389–399 (1977)
Rosenquist, Th.H.: On the use of quantitation in histochemistry: a review of the literature. Histochem. J. 8, 205–208 (1976)
Rost, F.W.D.: Quantitative histochemistry. In: Histochemistry, theoretical and applied, Pearse A.G.E. (ed.), pp. 1225–1259. Edinburgh and London: Churchill Livingstone 1972
Rubino, A., Zimbalatti, F., Auricchio, S.: Intestinal disaccharidase activities in adult and suckling rats. Biochim. Biophys. Acta 92, 305–311 (1964)
Sandritter, W.: Methods and results in quantitative cytochemistry. In: Introduction to quantitative cytochemistry. Wied, G.L. (ed.), pp. 159–182. New York: Academic Press 1966
Sasai, Y., Kumano, S., Takahashi, M., Nakano, H.: Histochemical quantification of dopa-oxidase (tyrosinase) activity in epidermal melanocytes. Histochemistry 55, 235–243 (1978)
Schmidt, D.D., Frommer, W., Junge, E.B., Müller, L., Wingeder, W., Truscheit, E., Schäfer, D.: α-Glucosidase inhibitors. New complex oligosaccharides of microbial origin. Naturwissenschaften 64, 535–536 (1977)
Schmidt, F.M.: Die enzymatische Bestimmung von Glucose und Fructose nebeneinander. Klin. Wochenschr. 39, 1244–1247 (1961)
Semenza, G.: Intestinal oligosaccharidases and disaccharidases. In: Handbook of physiology, alimentary canal V. pp. 2589–2604. Washington, DC: American Physiological Society 1968
Stevenson, N.R., Fierstein, J.S.: Diurnal rhythms of intestinal enzymes and transport systems in the rat and the effect of restricted feeding on these rhythms. Gastroenterology 66, 784 (1974)
Wachsmuth, E.D.: Differentiation of epithelial cells in human jejunum: Localization and quantification of aminopeptidase, alkaline phosphatase and isoenzymes in tissue sections. Histochemistry 48, 101–109 (1976)
Webster, H.L., Harrison, D.D.: Enzymic activities during the transformation of crypt to columnar intestinal cells. Exp. Cell Res. 56, 245–253 (1969)
Wilkinson, G.N.: Statistical estimations in enzyme kinetics. Biochem. J. 80, 324–332 (1961)
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Gutschmidt, S., Kaul, W. & Riecken, E.O. A quantitative histochemical technique for the characterisation of α-glucosidases in the brush-border membrane of rat jejunum. Histochemistry 63, 81–101 (1979). https://doi.org/10.1007/BF00508014
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DOI: https://doi.org/10.1007/BF00508014