Summary
In immunohistochemistry, it is well known that the majority of monoclonal antibodies to keratins work best on fresh frozen tissue specimens, yet in clinical practice most biopsies are routinely fixed in formaldehyde. This seriously limits the range of keratins that can be reliably assessed in retrospective studies (particularly where only rare archival material exists) and where subtle changes during tissue differentiation may be important. Antigen retrieval using exposure to microwave radiation is one technique that has been applied successfully to other tumour markers (e.g., p53). However, few papers have used this method when immunolabelling for keratins, in spite of the widespread use of antikeratin antibodies as markers of differentiation. The effect of keratin antigen retrieval using microwave processing was assessed on a range of oral mucosal biopsies, since the oral cavity displays a wide range of keratins. A panel of six well characterized antibodies was chosen: LP34 (Ck1, 5, 6, 18), LH1 (Ck10), LL025 (Ck16), A53 BA2 (Ck19), AE8 (Ck13), and E3 (Ck17). For each specimen, one piece was stored in liquid nitrogen and another piece fixed in formalin. Tissue sections were cut from each and, using the peroxidase avidin biotin technique, keratin expression was recorded for a frozen section, a dewaxed section, and a microwave-heated dewaxed section. Although overall there was a 25% improvement in identification of keratins after microwaving, some antibodies performed better than others. Given that keratins have been shown to be of value in tumour diagnosis, this study suggests that microwave processing of archival material can be valuable adjunct to such analysis.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Cattoretti, G., Pileri, S., Parravicini, C., Becker, M.H.G., Poggi, S., Bifulco, C., Key, G., D'amato, L., Sabattini, E., Feudale, E., Reynolds, F., Gerdes, J. &Rilke, F. (1993) Antigen unmasking on formalinfixed, paraffin-embedded tissue sections.J. Pathol. 171, 83–98.
Dhouailly, D., Xu, C., Manabe, M., Schermer, A. &Sun, T.-T. (1989) Expression of hair-related keratins in a soft epithelium: sub-populations of human and mouse dorsal tongue keratinocytes express keratin markers for hair-, skin- and esophageal-types of differentiation.Exp. Cell Res. 181, 141–58.
Dowell, S.P. &Ogden, G.R. (1996) The use of antigen retrieval for immunohistochemical detection of p53 over-expression in malignant and benign oral mucosa: a cautionary note.J. Oral Pathol. Med. 25, 60–4.
Girod, S.C., Pape, H.-D. &Krueger, G.R.F. (1994) p53 and PCNA expression in carcinogenesis of the oropharyngeal mucosa.Oral Oncol. Eur. J. Cancer 30B, 419–23.
Guelstein, V.I., Tchypysheva, T.A., Ermilova, V.D., Litvinova, L.V. &Troyanovsky, S.M. (1988) Monoclonal antibody mapping of keratins 8 and 17 and of vimentin in normal human mammary gland, benign tumors, dysplasias and breast cancer.Int. J. Cancer 42, 147–53.
Igarashi, H., Sugimura, H., Maruyama, K. et al. (1994) Alteration of immunoreactivity by hydrated autoclaving, microwave treatment, and simple heating of paraffin-embedded tissue sections.APMIS 102, 295–307.
Jeffers, M.D., Richmond, J., Farquharson, M. &Mcnicoi, A.M. (1994) p53 immunoreactivity in cervical intraepithelial neoplasia and non-neoplastic cervical squamous epithelium.J. Clin. Pathol. 47, 1073–6.
Karsten, U., Papsdorf, G., Roloff, G., Stolley, P., Abel, H., Walthers, I. &Weiss, H. (1985) Monoclonal anti-cytokeratin antibody from a hybridoma clone generated by electrofusion.Eur. J. Cancer Clin. Oncol. 21, 733–40.
Kawasaki, Y., Monden, T., Morimoto, H., Murotani, M., Miyoshi, Y., Kobayashi, T., Shimanu, T. &Mori, T. (1992) Immunohistochemical study of p53 expression in microwave-fixed, paraffin-embedded sections of colorectal carcinoma and adenoma.Am. J. Clin. Pathol. 97, 244–9.
Lambkin, H.A., Mothersill, C.M. &Kelehan, P. (1994) Variations in immunohistochemical detection of p53 protein over-expression in cervical carcinomas with different antibodies and methods of detection.J. Pathol. 172, 13–18.
Lane, E.B. &Alexander, C.M. (1990) Use of keratin antibodies in tumor diagnosis.Seminars Cancer Biol. 1, 165–79.
Lane, E.B., Bartek, J., Purkis, P.E. &Leigh, I.M. (1985) Keratin antigens in differentiating skin.Ann. NY Acad. Sci. 455, 241–58.
Lane, E.B., Wilson, C.A., Hughes, B.R. &Leigh, I.M. (1991) Stem cells in hair follicles: Cytoskeletal studies.The Molecular and Structural Biology of Hair 642, 197–213.
Mckee, P.H., Hobbs, C. &Hall, P.A. (1993) Antigen retrieval by microwave irradiation lowers immunohistological detection thresholds.Histopathology 23, 377–9.
Miller, K.D., Singh, N. &Wotherspoon, A.C. (1995) Current trends in immunocytochemistry. InProgress in Pathology Vol 1 (edited byKirkham, N. &Hall, P. A.) pp. 99–120. Edinburgh: Churchill Livingstone.
Moll, R., Franke, W.W., Schiller, D.L., Geiger, B. &Krepler, R. (1982) The catalog of human cytokeratins: patterns of expression in normal epithelial tumors and cultured cells.Cell 32, 11–24.
Moll, R., Schiller, D.L. &Franke, W.W. (1990) Identification of protein IT of the intestinal cytoskeleton as a novel type I cytokeratin with unusual properties and expression patterns.J. Cell Biol. 111, 567–80.
Morgan, J.M., Navabi, H., Schmid, K.W. &Jasani, B. (1994) Possible role of tissue-bound calcium ions in citrate-mediated high-temperature antigen retrieval.J. Pathol. 174, 301–7.
Morgan, P.R., Shirlaw, P.J., Johnson, N.W., Leigh, I.M. &Lane, E.B. (1987) Potential applications of antikeratin antibodies in oral diagnosis.J. Oral Pathol. 16, 212–22.
Ogden, G.R., Chisholm, D.M., Leigh, I.M. &Lane, E.B. (1992a). Cytokeratin profiles in Dyskeratosis congenita: an immunocytochemical investigation of lingual hyperkeratosis.J. Oral Path. Med. 21, 353–7.
Ogden, G.R., Nairn, A., Carmichael, A., Coghill, G., Cree, I.A., Green, M.W., Hopwood, D.V. &Chisholm, D.M. (1992b). Preservation of keratin expression in oral mucosa using a novel transport medium.J. Oral Pathol. Med. 21, 17–20.
Ogden, G.R., Chisholm, D.M., Adi, M. &Lane, E.B. (1993a). Cytokeratin expression in oral cancer and its relationship to tumour differentiation.J. Oral Pathol. Med. 22, 82–6.
Ogden, G.R., Lane, D.P. &Chisholm, D.M. (1993b) p53 expression in Dyskeratosis congenita: a marker for oral premalignancy?J. Clin. Pathol. 46, 169–70.
Osborn, M. &Weber, K. (1983) Tumor diagnosis by intermediate filament typing: a novel tool for surgical pathology.Lab. Invest. 48, 372–94.
Pavelic, Z.P., Portugal, L.G., Gootee, M.J., Stambrook, P.J., Smith, C., Mugge, R.E., Pavelic, L., Wilson, K., Buncher, C.R., Li, Y-Q., Mcdonald, J.S. &Gluckman, J.L. (1993) Retrieval of p53 protein in paraffin-embedded head and neck tumor tissues.Arch. Otolaryngol. Head Neck Surg. 119, 1206–9.
Piffko, J., Bankfalvi, A., Ofner, D., Joos, U., Bocker, W. &Schmid, K.W. (1995) Immunohistochemical detection of p53 protein in archival tissues from squamous cell carcinomas of the oral cavity using wet autoclave antigen retrieval.J. Pathol. 176, 69–76.
Prioleau, J. &Schnitt, S.J. (1995) p53 antigen loss in stored paraffin slides.New Eng. J. Med. 332, 1521–2.
Sawaf, M.H., Ouhayoun, J.P. &Forest, N. (1991) Cytokeratin profiles in oral epithelia: a review and a new classification.J. Biol. Buccale 19, 187–98.
Shi, S-R., Key, M.E. &Kalra, K.L. (1991). Antigen retrieval in formalin-fixed, paraffin-embedded tissues: an enhancement method for immunohistochemical staining based on microwave oven heating of tissue sections.J. Histochem. Cytochem. 39, 741–8.
Shi, S., Imam, S.A., Young, L., Cote, J. &Taylor, R. (1995) Antigen retrieval immunohistochemistry under the influence of pH using monoclonal antibodies.J. Histochem. Cytochem. 2, 193–201.
Van den Berg, F.M., Baas, I.O., Polak, M.M. &Offerhaus, G.H.A. (1993) Detection of p53 overexpression in routinely paraffin-embedded tissue of human carcinomas using a novel target unmasking fluid.Am. J. Pathol. 142, 381–5.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Ogden, G.R., Lunny, D. & Lane, E.B. Keratin antigen retrieval in oral mucosal biopsies using microwave processing. Histochem J 28, 875–882 (1996). https://doi.org/10.1007/BF02331391
Received:
Revised:
Issue Date:
DOI: https://doi.org/10.1007/BF02331391