Summary
The dome epithelium (DE) covering bronchus- and gut-associated lymphoid tissues (BALT and GALT) is composed of columnar cells, groups of lymphocytes, M cells, and pre-M cells. Although the cell biology and immunologic processes of this tissue are likely important in the afferent arm of secretory immune responses, virtually nothing is known about biochemical constituents of the DE. Therefore, a monoclonal antibody, 30E5, was used to study the distribution of a novel antigen, common to dome epithelia of GALT and BALT. 30E5 was secreted by a hybridoma, prepared by fusing murine splenocytes, immunized against dome epithelial cells, with P3×68/Ag8 myeloma cells. Reactivity of antigens was defined by indirect immunocytochemistry on sections of rabbit tissues or with dissociated epithelial cells. In situ, 30E5-reactive antigen circumscribed each group of dome epithelial lymphocytes, most or all of which were T cells, in rabbit appendix, sacculus rotundus, cecal patch, Peyer's patch, and BALT. In the DE this antigen was associated with the apical surface and the supranuclear or perinuclear regions of epithelial cells, but it was not associated with epithelial cells of villi, epithelium, or with individual lymphocytes. In peripheral lymph nodes, spleen, and in domes and follicles of GALT or BALT, 30E5-reactive antigen was visualized in linear wisps, primarily in regions populated by thymocytes. In other adult tissues, 30E5-reactive antigen was associated with involuntary muscle, myoepithelial cells of lactating mammary gland and with what appeared to be neural dendrites; but it was not found in epithelia other than DE. In neonatal rabbit appendix, this antigen first appeared in the upper dome epithelium two days after birth, a period coinciding with T cell infiltration and M cell maturation. The histologic distribution of 30E5-reactive antigen suggested that it might be a contractile filament, a receptor, or a differentiation antigen. Since 30E5 was associated with DE of both GALT and BALT, results support the concept of a molecule common to all mucosa-associated lymphoid tissues.
In conducting the research described in this report, the investigators adhered to standards set forth in the “Guide for the Care and Use of Laboratory Animals” (NIH Publication 85-23) as promulgated by the Committee on Care and Use of Laboratory Animals of the Institute of Laboratory Animal Resources, National Research Council, USA
Limited quantities of ascites containing monoclonal antibody 30E5 will be distributed to interested investigators until such time as the hybridoma is available from American Type Culture Collection
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Abbreviations
- ABC:
-
avidin-biotin-horseradish peroxidase complex
- BALT:
-
bronchus-associated lymphoid tissues
- DMEM:
-
Dulbecco's modified Eagle medium
- GALT:
-
gut-associated lymphoid tissues
- DE:
-
dome epithelium
- DEL:
-
dome epithelial lymphocytes
- MAb:
-
monoclonal antibody
- MALT:
-
mucosal-associated lymphoid tissues
References
Bienenstock J, Befus AD (1980) Mucosal immunology. Immunology 41:249–270
Bienenstock J, Johnston N, Perey DYE (1973) Bronchial lymphoid tissue. I. Morphologic characteristics. Lab Invest 28:686–692
Bockman DE, Cooper MD (1973) Pinocytosis by epithelium associated with lymphoid follicles in the bursa of Fabricius, appendix and Peyer's patches. An electron microscopic study. Am J Anat 136:455–477
Bye WA, Allen CH, Trier JS (1984) Structure, distribution, and origin of M cells on Peyer's patches of mouse ileum. Gastroenterology 86:789–801
Deusen RA van (1984) Making hybridomas. In: Stern NJ, Gamble HR (eds) Hybridoma Technology in Agricultral and Veterinary Research. Roman and Allenheld, Totowa, NJ, pp 15–25
Fuchs AR, Fuchs F, Husslein P, Soloff MS (1984) Oxytocin receptors in the human uterus during pregnancy and parturition. Am J Obstet Gynecol 150:734–741
Grinnel F (1978) Cellular adhesiveness and extracellular substrate. Int Rev Cytol 53:65–85
Haynes BF, Searce RM, Lobach DF, Hensley LL (1984) Phenotypic characterization and ontogeny of mesodermal-derived and endocrine epithelial components of the human thymic microenvironment. J Exp Med 159:1149–1168
Jackson S, Chused TM, Wilkinson JM, Leiserson WM, Kindt TJ (1983) Differentiation antigens identify subpopulations of rabbit T and B lymphocytes. J Exp Med 157:34–46
Keren DF, Holt PS, Collins HH, Gemski P, Formal SB (1978) The role of Peyer's patches in the local immune response of rabbit ileum to live bacteria. J Immunol 120:1892–1896
McFarland EJ, Searce RM, Haynes BF (1984) The human thymic microenvironment: Cortical thymic epithelium is an antigenically distinct region of the thymic microenvironment. J Immunol 133:1241–1249
Nieuwenhuis P (1971) On the Origin and Fate of Immunologically Competent Cells. Wolter-Nordhoff, Groningen, NL
Norris DO (1980) Vertebrate Endocrinology. Lea and Febiger, Philadelphia, PA pp 166–170
Oi VT, Herzenberg LA (1980) Immunoglobulin-producing hybrid cell lines. In: Mischel BB, Shiigi SM (eds) Selected Methods in Cellular Immunology. WH Freeman, San Francisco, pp 351–364
Owen RL (1977) Sequential uptake of horseradish peroxidase by lymphoid follicle epithelium of Peyer's patches in the normal, unobstructed mouse intestine: an ultrastructural study. Gastroenterology 72:440–451
Owen RL, Bhalla DK (1983) Cytochemical analysis of alkaline phosphatase and esterase activities and of lectin-binding and anionic sites in rat and mouse Peyer's patch M cells. Am J Anat 168:199–212
Owen RL, Jones AL (1974) Epithelial cell specialization within human Peyer's patches: an ultrastructural study of intestinal lymphoid tissues. Gastroenterology 66:189–203
Rall RW, Schleifer LS (1980) Drugs affecting uterine motility. In: Gilman AG, Goodman LS, Gilman A (eds) The Pharmacological Basis of Therapeutics, Sixth edition, MacMillan, NY, pp 935–938
Rosen L von, Podjaski B, Bettman I, Otto H (1981) Observations on the socalled “microfold” or “membranous” cells (M cells) by means of peroxidase as a tracer: an experimental study with special attention to the physiological parameters of resorption. Virchows Arch [Path Anat.] 390:289–312
Roy MJ, Ruiz A (1986) Dome epithelial M cells dissociated from rabbit gut-associated lymphoid tissues. Am J Vet Res 47:2577–2583
Sell S, Linthicum DS, Bass D, Bahu R, Wilson B, Nakane P(1977) Immunohistologic techniques. In: Borek C (ed) Cancer Biology IV. Differentiation in Cell Biology. Stratton, NY, pp 272–305
Smith MW, Peakcock MA (1980) “M” cell distribution in follicle-associated epithelium of mouse Peyer's patches. Am J Anat 159:167–175
Sorvari T, Sorvari R, Ruotsalainen P, Toivanen A, Toivanen P (1975) Uptake of environmental antigens by the bursa of Fabricius. Nature [London] 253:217–219
Stoolman LM, Rosen SD (1983) Possible role for cell surface carbohydrate-binding molecules in lymphocyte recirculation. J Cell Biol 96:722–729
Theodosis DT (1985) Oxytocin immunoreactive terminals synapse on oxytocin neurons in the supraoptic nucleus. Nature [London] 313:682–684
Weiss L (1983) Lymphatic vessels and lymph nodes. In: Weiss L (ed) Histology: Cell and Tissues Biology, Fifth ed, Elsevier, NY, pp 527–543
Wilders MW, Drexhage HA, Weltevreden EF, Mullink H, Duijvestijn A, Meuwissen SGM (1983) Large monoclonal lapositive veiled cells in Peyer's patches. I. Isolation and characterization in rat, guinea pig and pig. Immunology 48:453–460
Wilkinson JM, Wetterskug DJ, Sogn JA, Kindt TJ (1984) Cell surface glycoproteins of rabbit lymphocytes: Characterization with monoclonal antibodies. Mol Immunol 21:95–103
Wolf JL, Rubin DH, Finberg R, Kauffman RS, Sharp AH, Trier JS, Fields BN (1981) Intestinal M cells: a pathway for entry of reovirus into the host. Science [Wash DC] 212:471–472
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Send offprint requests to: Department of Experimental Pathology, Division of Pathology, Walter Reed Army Institute of Research, Washington, D.C. 20307-5100, USA
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Roy, M.J., Ruiz, A. & Varvayanis, M. A novel antigen is common to the dome epithelium of gut- and bronchus-associated lymphoid tissues. Cell Tissue Res. 248, 635–644 (1987). https://doi.org/10.1007/BF00216494
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DOI: https://doi.org/10.1007/BF00216494