Summary
In order to determine the effect of routine fixation on the lectin affinity of tissue structures, we used unconjugated lectins and an indirect immunoalkaline-phosphatase method for frozen sections, and the peroxidase-anti-peroxidase method for paraffin-embedded, formalinfixed tissue sections. Fourteen hyperplastic human tonsils were used, and the results of the binding spectra of each lectin were compared. In general, the binding spectrum defected in the paraffin sections was part of the broader range of affinity obtained in the frozen sections. The lectin receptors on the cell surface were especially affected by formalin fixation. On the other hand, the paraffin sections, because of their superior morphology, showed a better localization of the cytoplasmic reaction product and discriminated the cell types more accurately. Thus, the two tissue preparations are rather complementary. In the tonsil peanut agglutinin (PNA) and periodic acid/Concanavalin A (PA/Con A) proved to be suitable tools for distinguishing exactly between the crypt and the surface epithelium. Ulex europaeus agglutinin I (UEA) is a reliable endothelial marker with a strong affinity to the crypt epithelium. In the frozen sections, PNA regularly stained follicular-centre cells on their cell surface. PNA, Helix pomatia agglutinin (HPA), soybean agglutinin (SBA) and Con A stained the histiocytic population, especially PNA which additionally stained an “asteroid” histiocyte. This cell probably corresponds to the antigen-presenting histiocyte of the T-system.
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Abbreviations
- PNA:
-
Peanut agglutinin
- UEA:
-
Ulex europaeus agglutinin I
- HPA:
-
Helix pomatia agglutinin
- SBA:
-
Soybean agglutinin
- Con A:
-
Concanavalin A
- PHA:
-
Phaseolus vulgaris agglutinin
- SaR:
-
swine-anti-rabbit immunoglobulins
- PaP:
-
peroxidase-anti-peroxidase-complexes
- HRP:
-
horseradish peroxidase
- PA:
-
periodic acid
- DAB:
-
diaminobenzidine
- AP:
-
alkaline phosphatase
- PBS:
-
phosphate buffered saline solution
- pls:
-
paraffin section
- fzs:
-
frozen section
- s:
-
surface
- c:
-
cytoplasmic
References
Bergroth V (1983) Comparison of various immunohistochemical methods. Histochemistry 77:177–184
Borisch B, Möller P, Harms D (1983) Lektin Ulex europaeus I als Marker in der Differentialdiagnose von Gefäßtumoren. Pathologe 4:241–243
Cooper HS (1982) Peanut lectin-binding sites in large bowel carcinoma. Lab Invest 47:383–390
Debray H, Decont D, Strecker G, Spik G, Montreuie J (1981) Specifity of twelve lectins toward oligosaccharides and glycopeptides related to N-glycoproteins. Eur J Immunol 117:41–55
Feller AC, Parwaresch MR (1983) Simultaneous-enzyme-immunocytochemical detection of antigens in mono-cellular specimes with monoclonal antibodies. J Immunol Methods 63:273–279
Geboes K, De Wolf-Peeters C, Rutgeerts P, Janssens J, Vantrappen G, Desmet C (1983) Lymphocytes and Langerhans cells in the human oesophageal epithelium. Virchows Arch A 401:45–55
Graham RC Jr, Karnowsky MJ (1966) The early stages of absorption of injected horseradish perxodiase in the proximal tubules of mouse kidney. Ultrastructural cytochemistry by a new technique. J Histochem Cytochem 14:291–302
Holthöfer H, Virtanen I, Kariniemi AL, Hormia M, Linder E, Miettinen A (1982) Ulex europaeus I lectin as a maker for vascular endothelium in human tissues. Lab Invest 47:60–66
Howard DR, Batsakis JG (1982) Peanut agglutinin: a new marker for tissue histiocytes. Am J Clin Pathol 77:401–408
Hsu SM, Ree HJ (1983) Histochemical studies on lectin binding in reactive lymphoid tissues. J Histochem Cytochem 31:538–546
Hyun KH, Nakai M, Kawamura K, Mori M (1984) Histochemical studies of lectin binding patterns in keratinized lesions, including malignancy. Virchows Arch A 402:337–351
Kaplow LS (1968) Leucocyte alkaline phosphatase cytochemistry: applications and methods. Ann NY Acad Sci 155:911–947
Katsuyama T, Spicer SS (1978) Histochemical differentiation of complex carbohydrates with variants of the Concanavalin A-horseradish peroxidase method. J Histochem Cytochem 26:233–250
Klein PJ, Vierbuchen M, Schulz KD, Würz H, Citoler P, Uhlenbruck G, Ortman M, Fischer R (1981) Hormonabhängige Lektin-Bindungsstellen. II. Lektin-Rezeptoren als Indikator einer Hormonsensibilität von Mammacarcinomen. Tumor Diagnostik 2:240–245
Louis CJ, Sztynda T, Cheng ZM, Wyllie RG (1983) Lectin-binding affinities of human breast tumors. Cancer 52:1244–1250
Mason DY (1983) Immunohistology of lymphoid tissue. In: Filipe MI, Lake BD (eds) Histochemistry in pathology. Churchill Livingstone, Edinburgh London New York, pp 215–235
Möller P (1982) Peanut lectin: a useful tool for detecting Hodgkin cells in paraffin sections. Virchows Arch A 96:313–317
Möller P (1983) Darstellung eines besonderen Histiozyten der T-Region mittels Peanut-Lektin und dessen Vorkommen in Lymphadenitiden und Lymphomen. Verh Dtsch Ges Pathol 67:713
Möller P, Schwechheimer K, Schüle B, Kuruc N, Noä G (1983a) Is a distinctive asteroid histiocyte with high cytoplasmic affinity to peanut lectin the normal counterpart of the Hodgkin cells? Eur J Biol (Suppl) 4:13
Möller P, Schwechheimer K, Schüle B, Kuruc N, Noä G (1983b) Ist ein besonderer asteroider Histiozyt mit hoher zytoplasmatischer Affinität für PNL das normale Gegenstück der Hodgkin-Zelle? Oncology (Abstr) 6:235
Ree HJ (1983) Lectin histochemistry of malignant tumors. II. Concanavalin A: a new histochemical marker for macrophage-histiocytes in follicular lymphoma. Cancer 51:1639–1646
Ree HJ, Hsu SM (1983) Lectin histochemistry of malignant tumors. I. Peanut agglutinin (PNA) receptors in follicular lymphoma and follicular hyperplasia: an immunohistochemical study. Cancer 51:1631–1638
Ree HJ, Raine L, Crowley JP (1983) Lectin binding patterns in diffuse large cell lymphoma. Cancer 52:2089–2099
Rose ML, Birbeck MSC, Wallis VJ, Forrester JA, Davies AJS (1980) Peanut lectin binding properties of germinal centres of mouse lymphoid tissue. Nature 284:364–366
Rose ML, Habeshaw JA, Kennedy R, Sloane J, Wiltshaw E, Davies AJS (1981) Binding of peanut lectin to germinal centre cells: a marker for B-cell subsets of follicular lymphomas. Br J Cancer 44:68–74
Rose ML, Malchiodi F (1981) Binding of peanut lectin to thymic cortex and germinal centres of lymphoid tissue. Immunology 42:583–591
Schulte BA, Spicer SS (1983) Histochemical evaluation of mouse and rat kidneys with lectin-horseradish peroxidase conjugates. Am J Anat 168:345–362
Schwechheimer K, Weiss G, Möller P (1984) Concanavalin A binding and neuronal differentiation. A light microscopic study on neuronal tumours. Virchows Arch A 402:297–306
Sternberger LA, Hardy PH Jr, Cucitis JJ, Meyer HG (1970) The unlabelled antibody enzyme method of immunohistochemistry. J Histochem Cytochem 18:315–333
Walker RA (1982) Mucoid carcinomas of the breast: a study using mucin histochemistry and peanut lectin. Histopathology 6:571–579
Yonezawa S, Nakamura T, Tanaka S, Sato E (1982) Glycoconjugate with Ulex europaeus agglutinin-I-binding sites in normal mucosa, adenoma, and carcinoma of the human large bowel. J Natl Cancer Inst 69:777–785
Zeromski J, Hammarström S, Hellström U, Biberfeld P, Perlmann P (1982) Localization of T-lymphocyte areas in human lymphoid tissues by fluorochrome-labelled Helix pomatia A haemagglutinin. Scand J Immunol 16:83–90
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Wirbel, R., Möller, P. & Schwechheimer, K. Lectin-binding spectra in the hyperplastic human tonsil. Histochemistry 81, 551–560 (1984). https://doi.org/10.1007/BF00489534
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DOI: https://doi.org/10.1007/BF00489534