Synopsis
Non-specific esterases in normal and carcinomatous skin of the mouse have been investigated electrophoretically and histochemically. Three esterase bands were obtained on electrophoresis from homogenates of normal skin; homogenates of carcinomas showed an accumulation of esterase-Ia and esterase-Ib.* However, using several ester substrates, substrate-specific patterns were demonstrated in the electrophoresis separations and histochemically in tissue sections. On the electrophoresis separations, α-naphthyl acetate, β-naphthyl acetate, 6-bromo-2-naphthyl acetate, naphthol AS acetate, naphthol AS-D acetate and naphthol AS-LC acetate gave rise to similar patterns, but with α-naphthyl propionate as subsmate, more esterase-Ib was indicated and with 5-bromo-indoxyl acetate a distinctive preponderance. Peripheral or uniformly distributed staining was found histochemically in tumour epithelium using α-naphthyl acetate, α-naphthyl propionate and β-naphthyl acetate, whereas with the substrates of naphthol AS acetate, naphthol AS-D acetate and indoxyl acetate an intermediate pattern of staining related to keratinization was obtained.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Augustinsson, K. B. (1961). Multiple forms of esterase in vertebrate blood plasma.Ann. N.Y. Acad. Sci. 94, 844–60.
Augustinsson, K. B. (1962). On the specificity of arylesterase.Acta chem. scand. 16, 204–41.
Augustinsson, K. B. (1964). Arylesterases.J. Histochem. Cytochem. 12, 744–7.
Augustinsson, K. B. &Barr, M. (1963). Age variation in plasma arylesterase activity in children.Clin. chem. Acta 8, 568–73.
Augustinsson, K. B. &Henricson, B. (1965). Some factors regulating normal arylesterase activity of blood plasma in rat.Acta physiol. scand. 64, 418–25.
Barrett, R. F. (1952). The distribution esterolytic activity in the tissue of the albino rat as demonstrated with indoxyl acetate.Anat. Rec. 114, 577–99.
Braun-Falco, O. (1956). Beitrag zur histochemischen Nachweis von Esterasen in normaler und psoriatischer Haut.Archs Klin. exp. Derm. 202, 153–62.
Clithero, J. W., Mitchard, M. &Harper, N. J. (1963). The possible biological function of pseudocholinesterase.Nature, Lond. 199, 1000–1.
Cchen, R. B., Nachlas, M. M. &Seligman, A. M. (1951). Histochemical demonstration of esterase in malignant tumors.Cancer Res. 11, 709–12.
Greenstein, J. P. (1944). Esterase (Butyric esterase) activity of normal and neoplastic tissues of the mouse.J. natn. Cancer Inst. 5, 31–4.
Gross, S. J. &Danziger, S. (1957). Histochemical techniques applied to the study of benign and malignant squamous epithelium of the cervix uteri.Am. J. Obstet. Gynec. 73, 94–119.
Holmes, R. S. &Masters, C. J. (1967a). The developmental multiplicity and isoenzyme status of rat esterases.Biochim. biophys. Acta 146, 138–50.
Holmes, R. S. &Masters, C. J. (1967b). The developmental multiplicity and isoenzyme status of carian esterases.Biochim. biophys. Acta 132, 379–405.
Holmes, R. S. &Masters, C. J. (1968). A comparative study of the multiplicity of mammalian esterases.Biochim. biophys. Acta 151, 147–58.
Kawakatsu, K., Mori, M., Deguchi, Y. & Mizushima, T. (1961). Trial examination of the post coupling method using 6-bromo-2-naphthol. A comparison of simultaneous and post azo coupling method.Proc. 2nd Ann. Meeting of Jap. Histochem. Ass. 111–15.
Koelle, G. B. (1962). A new general concept of the neurohumoral functions of acetyl choline and acetylcholinesterase.J. Pharmacol. 14, 65–90.
Kheusser, E. H. (1966). Non-specific esterases in normal and neoplastic tissues of the syrian hamster: A zymogram study.Cancer Res. 26, 2181–5.
Kung, S. H. (1946). Lipase activity during experimental epidermal carcinogenesis.J. natn. Cancer Inst. 9, 435–8.
Markert, C. L. &Hunter, R. L. (1959). The distribution of esterases in mouse tissue.J. Histochem. Cytochem. 7, 42–9.
Monis, B. &Weinberg, T. (1961). Cytochemical study of esterase activity of human neoplasms and stromal macrophages.Cancer 14, 369–77.
Montagna, W. &Ellis, R. A. (1957). Histology and cytochemistry of human skin. XII. Cholinesterases in the hair follicles of the scalp.J. invest. Derm. 29, 151–7.
Montagna, W., Giacometti, L. &Machida, H. (1965). Histology and cytochemistry of human skin. XXI. Aging changes in the cholinesterase containing nerves of the scalp.J. Gerontol. 20, 401–4.
Montagna, W., Yun, J., Ore, B., &Formisano, V. (1964). Histology and cytochemistry of human skin. XXX. Cholinesterase-containing nerves in face.Archs Derml. 90, 526–9.
Myers, D. K. (1960).The Enzymes, 2nd Ed., Vol. 4, p. 475. New York: Academic Press.
Nachlas, M. M. &Seligman, A. M. (1949). The histochemical demonstration of esterase.J. natn. Cancer Inst. 9, 415–25.
Ogita, Z. (1965). Thin layer electrophoresis (I).Metabolism,2, 78–87.
Oka, R. (1969). Cytology and enzyme histochemistry of squamous carcinoma of the hamster cheek pouch and human oral mucosa.Gann 60, 631–48.
Oka, R., Okamoto, Y., Go, J. &Nagasuna, H. (1961). Histochemical distribution of alkaline and acid phosphatases, esterase, β-glucuronidase and protein-bound sulphudryl groups in experimental carcinogenesis of the mouse skin.Gann 52, 305–12.
Okada, H. &Fuji, S. (1968). Relationship between lipase and esterase.J. Biochem. 64, 377–85.
Okamoto, Y., Oka, R. &Koizumi, K. (1962). Histochemical study of esterase in tumors of oral region.J. Osaka Univ. dentl Soc. 2, 67–72.
Pearson, B. &Defendi, V. (1957). A comparison between the histochemical observation of non-specific esterase activity by 5-bromoindoxyl acetate and naphthol AS-acetate.J. Histochem. Cytochem. 5, 78–83.
Scott, A. (1958). The distribution and behaviours of cutaneous nerves in normal and abnormal skin.Br. J. Derm. 70, 1–21.
Steigleder, G. K. &Löffler, H. (1956). Zum histochemischen Nachweis unspezifischer Esterase und Lipase.Archs Klin. exp. Derm. 203, 41–60.
Steigleder, G. K. &Schultis, K. (1957). Zur Histochemie der Esterasen der Haut.Archs Klin. exp. Derm. 205, 196–211.
Templeton, M. (1969). Mouse erythrocyte esterase and an interaction with heparin as shown by starch gel electrophoresis.J. Histochem. Cytochem. 17, 95–101.
Thompson, R. H. S. &Whittaker, V. P. (1944). Esterases of skin.Biochem. J. 38, 295–9.
Thyndall, R. L. &Allen, R. C. (1967). Altered esterase zymograms associated with infection with leukemia virus.Nature, Lond. 2, 984–5.
Weinstein, E. &Mandel, I. D. (1969). Facts and artifacts in acid phosphatase and esterase localization in disc electrophoresis of human saliva.Archs oral Biol. 14, 1–6.
Whittaker, V. P. (1951). Specificity, mode of action and distribution of cholinesterase.Physiol. Rev. 31, 312–43.
Wilkelman, R. K. &Scknis, R. W. (1959). Cholinesterase in the skin of rat, dog, cat, guinea-pig and rabbit.J. invest. Derm. 33, 185–90.
Yoshimura, Y., Kawano, T. &Mori, M. (1970). Non-specific esterase zymogram and histochemistry in keratinization of tumors.Histochemie 21, 257–67.
Yoshimura, Y., Morishita, M., Mori, M., &Kawakatsu, K. (1969). Zymogram and histochemistry of non-specific esterase in the salivary gland.Histochemie 18, 301–13.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Yoshimura, Y., Mori, M. Isoenzymes and histochemistry of non-specific esterases in normal and cancerous skin. Histochem J 2, 275–288 (1970). https://doi.org/10.1007/BF01004996
Received:
Revised:
Issue Date:
DOI: https://doi.org/10.1007/BF01004996