Abstract
In the last two decades, our understanding of the basic mechanisms underlying induction, expression and regulation of allergic contact dermatitis (ACD) has rapidly increased.
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References
Boerrigter GH, Bril H, Scheper RJ (1988) Hapten-specific antibodies in allergic contact dermatitis in the guinea pig. Int Arch Allergy Appl Immunol 85: 385–391
Bergstresser PR (1989) Sensitization and elicitation of inflammation in contact dermatitis. In: Norris DA (ed) Immune mechanisms in cutaneous disease. Dekker, New York, pp 219–246
Turk JL (1975) Delayed hypersensitivity, 2nd edn. North Holland, Amsterdam
Gell PDH, Coombs RRA, Lachman R (1975) Clinical aspects of immunology, 3rd edn. Blackwell, London
Polak L (1980) Immunological aspects of contact sensitivity. An experimental study. Monogr Allergy 15: 4–60
Von Blomberg BME, Bruynzeel DP, Scheper RJ: Advances in mechanisms of allergic contact dermatitis: in vitro and in vitro. in: Dermatotoxicology, 4th ed. eds Marzulli FN, Maibach HI. Hemisphere Publishing Corporation, Washington. pp 255–362, 1991
Stingl G, Katz SI, Clement L et al. (1978) Immunological functions of Ia-bearing epidermal Langerhans cells. J Immunol 121: 2005–2013
Czernielewski JM, Demarchez M (1987) Further evidence for the self-reproducing capacity of Langerhans cells in human skin. J Invest Dermatol 88: 17–20
Breathnach SM (1988) The Langerhans cell. Centenary review. Br J Dermatol 119: 463–469
Toews G, Bergstresser P, Streilein J et al. (1980) Epidermal Langerhans cell density determines whether contact hypersensitivity or unresponsiveness follows skin painting with DNCB. J Immunol 124: 445–453
Halliday GM, Muller HK (1986) Induction of tolerance via skin depleted of Langerhans cells by a chemical carcinogen. Cell Immunol 99: 220–227
Marchal G, Seman M, Milon M et al. (1982) Local adoptive transfer of skin delayed type hypersensitivity initiated by a single T Lymphocyte. J Immunol 129: 954–958
Schuler G, Steinman RM (1985) Murine epidermal Langerhans cells mature into potent immuno-stimulatory dendritic cells in vitro. J Exp Med 161: 526–546
Shimada S; Caughman SW, Sharrow SO et al. (1987) Enhanced antigen-presenting capacity of cultured Langerhans cells is associated with markedly increased expression of Ia antigen. J Immunol 139: 2551–2555
Inaba K, Steinman RM (1986) Accessory cell-T lymphocyte interactions. Antigen-dependent and -independent clustering. J Exp Med 163: 247–261
Braathen LR, Thorsby E (1983) Human epidermal Langerhans cells are more potent than blood monocytes in inducing some antigen-specific T cell-responses. Br J Dermatol 108: 139–146
Res P, Kapsenberg ML, Bos JD et al. (1987) The crucial role of human dendritic antigen-presenting cell subsets in nickel-specific T cell proliferation. J Invest Dermatol 88: 550–554
Cresswell P (1987) Antigen recognition by T lymphocytes. Immunol Today 8: 67–69
Claverie JM, Prochnicka-Chalufour A, Bougueleret L (1989) Implications of a Fab-like structure for the T cell receptor. Immunol Today 10: 10–14
Shimada S, Katz SI (1985) TNP-specific Lyt-2+ cytolytic T cell clones preferentially respond to TNP-conjugated epidermal cells. J Immunol 135: 1558–1563
Sinigaglia F, Scheidegger D, Garotta G et al. (1985) Isolation and characterization of Ni-specific T cell clones from patients with Ni-contact dermatitis. J Immunol 135: 3929–3932
Sanders ME, Makgoba MW, Shaw S (1988) Human naive and memory T cells: reinterpretation of helper-inducer and suppressor-inducer subsets. Immunol Today 9: 195–198
Dohlsten M, Hedlund G, Sjogren H et al. (1988) Two subsets of human CD4+ T helper cells differing in kinetics and capacities to produce interleukin 2 and interferon-gamma can be defined by the Leu 18 and UCHL1 monoclonal antibodies. Eur J Immunol 18: 1173–1178
Bos JD, Zonneveld I, Das PK et al. (1987) The skin immune system (SIS): distribution and immunophenotype of lymphocyte subpopulations in normal human skin. J Invest Dermatol 88: 569–573
von Blomberg BME, van der Burg CKH, Pos O et al. (1987) In vitro studies in nickel allergy: diagnostic value of a dual parameter analyis. J Invest Dermatol 88: 362–368
Hirschberg H, Braathen LR, Thorsby E (1982) Antigen presentation by vascular endothelial cells and epidermal Langerhans cells: the role of HLA-DR Immunol Rev 65: 57–77
Breitmeyer JB (1987) Lymphocyte activation. How T cells communicate. Nature 329: 760–761
Bierer BE, Burakoff SJ (1988) T cell adhesion molecules. FASEB J 2: 2584–2590
Issekutz TB, Stoltz JM, von der Meide P (1988) Lymphocyte recruitment in delayed hypersensitivity; the role of interferon-gamma. J Immunol 140: 2989–2993
Messadi DV, Pober JS, Fiers W et al. (1987) Induction of an activation antigen on postcapillary venular endothelium in human skin organ culture. J Immunol 139: 1557–1562
Haskard DO, Cavender D, Fleck RM et al. (1987) Human dermal microvascular endothelial cells behave like umbilical vein endothelial cells in T cell adhesion studies. J Invest Dermatol 88: 340–344
Dustin ML, Rothlein R, Bhan AK et al. (1986) Induction by IL-1 and interferon-gamma: tissue distribution, biochemistry, and function of a natural adherence molucule (ICAM-1). J Immunol 137: 245–254
Hamann A, Jablonski-Westrich D, Scholz KW et al. (1988) Regulation of lymphocyte homing. I. Alterations in homing receptor expression and organ-specific high endothelial venule binding of lymphocytes upon activation. J Immunol 140: 737–741
Scheper RJ, Von Blomberg BME (1989) Allergic contact dermatitis: T cell receptors and migration. In: Frosch PJ, Dooms-Goossens A, Lachapelle JM, Rycroft RJG, Scheper RJ (eds) Current topics in contact dermatitis. Springer, Berlin Heidelberg New York, pp 12–17
Pals ST, Horst E, Scheper RJ et al. (1989) Mechanisms of human lymphocyte migration and their role in the pathogenesis of disease. Immunol Rev 108: 111–133
Duijvesteijn A, Hamann A (1989) Mechanisms and regulation of lymphocyte migration. Immunol Today 10: 23–28
Silvennoinen-Kassinen S, Jakkula H, Karvonen J (1986) Helper T cells carry the specificity of nickel sensitivity reaction in vitro in humans. J Invest Dermatol 86: 18–20
Scheper RJ, von Blomberg BME, Velzen D et al. (1976) Effects of contact sensitization and delayed hyper-sensitivity reactions on immune responses to non-related antigens. Modulation of immune responses. Int Arch Allergy Appl Immunol 50: 243–255
Camarasa JG, Serra-Baldrich E, Lluch M et al. (1989) Recent unexplained patch test reactions to palladium. Contact Dermatitis 20: 388–399
Skog E (1966) Spontaneous flare-up reactions induced by different amounts of 1,3-dinitro-4-chlorobenzene. Acta Derm Venereol (Stockh) 46: 386–395
Scheper RJ, von Blomberg BNE, Boerrigter GH et al. (1983) Induction of local memory in the skin. Role of local T cell retention. Clin Exp Immunol 51: 141–151
Yamashita N, Natsuaki M, Sagami S (1989) Flare-up reaction on murine contact hypersensitivity. I. Description of an experimental model: rechallenge system. Immunology 67: 365–369
Scheper RJ, van Dinther-Janssen ACHM, Polak L (1985) Specific accumulation of hapten-reactive T cells in contact sensitivity reaction sites. J Immunol 134: 1333–1336
Miller SD, Sy M-S, Claman HN (1977) The induction of hapten-specific T cell tolerance using hapten-modified lymphoid membranes. II. Relative roles of suppressor T cells and clone inhibition in the tolerant state. Eur J Immunol 7: 165–170
Mowat A (1987) The regulation of immune responses to dietary protein antigens. Immunol Today 8: 93–98
van Hoogstraten IMW, Andersen JE, von Blomberg BME et al. (1989) Preliminary results of a multicenter study on the incidence of nickel allergy in relationship to previous oral and cutaneous contacts. In: Frosch PJ, Dooms-Goosens A, Lachapelle JM, Rycroft RJG, Scheper RJ (eds) Current topics in contact dermatitis. Springer, Berlin Heidelberg New York pp 178–184
Semma M, Sagami S (1981) Induction of suppressor T cells to DNFB contact sensitivity by application of sensitizer through Langerhans cell-deficient skin. Arch Dermatol Res 271: 361–364
Elmets CA, Bergstresser PR, Tigelaar RE et al. (1983) Analysis of the mechanism of unresponsiveness produced by haptens painted on skin exposed to ultraviolet radiation. J Exp Med 158: 781–794
Zembala M, Asherson GL (1973) Depression of T cell phenomenon of contact sensitivity by T cells from unresponsive mice. Nature 244: 227–228
Epstein WL (1987) The poison ivy picker of Pennypack Park: the continuing saga of poison ivy. J Invest Dermatol 88: 7–9
Chase MW (1946) Inhibition of experimental drug allergy by prior feeding of the sensitizing agent. Proc Soc Exp Biol Med 61: 257–259
Polak L, Turk JL (1968) Studies on the effect of systemic administration of sensitizers in guinea pigs with contact sensitivity to inorganic metal compounds. I. The induction of immunological unresponsiveness in already sensitized animals. Clin Exp Immunol 3: 245–251
Wendel GD, Stark BJ, Jamison RB et al. (1985) Penicillin allergy and desensitization in serious infections during pregnancy. N Engl J Med 312: 1229–1232
Polak L, Rinck C (1978) Mechanism of desensitization in DNCB-contact sensitive guinea pigs. J Invest Dermatol 70: 98–104
Gaspari AA, Jenkins MK, Katz SI (1988) Class II MCH-bearing keratinocytes induce antigen-specific unresponsiveness in hapten-specific TH1 clones. J Immunol 141: 2216–2220
Boerrigter GH, Scheper RJ (1987) Local and systemic desensitization induced by repeated epicutaneous hapten application. J Invest Dermatol 88: 3–7
Menne T, Brandrup F, Thestrup-Pedersen K et al. (1987) Patch test reactivity to nickel alloys. Contact Dermatitis 16: 255–259
Magnusson B, Kligman AM (1977) Usefulness of guinea pig tests for detection of contact sensitizers. In: Marzulli FN, Maibach HI (eds) Dermatotoxicology and pharmacology. Wiley, London, pp 551–560
Klecak G (1983) Identification of contact allergens: predictive tests in animals. In: Marzuli FN, Maibach HI (eds) Dermatotoxicology. McGraw-Hill, New York, pp 193–237
Maguire HC (1985) Estimation of the allergenicity of prospective human contact sensitizers in the guinea pig. In: Maibach HI, Lowe N (eds) Models in dermatology, vol 2. Karger, Basel, pp 234–239
Maurer T (1983) Contact and photocontact allergens: a manual of predictive test methods. Dekker, New York
Maibach H (1985) Clonidine: irritant and allergic contact dermatitis assays. Contact Dermatitis 12: 192–195
Kimber I, Mitchell JA, Griffin AC (1986) Development of a murine local lymph node assay for the determination of sensitizing potential. Food Chem Toxicol 24: 585–586
Kimber I (1988) Immunotoxicology and allergy: old problems and new approaches. Toxic in Vitro 2: 309–311
Knapp W, Rieber P, Dorken B et al. (1989) Towards a better definition of human leucocyte surface molecules. Immunol Today 10: 253–258
Knop J, Stremmer R, Neumann C, De Maeyer D, Macher E (1982) Interferon inhibits the suppressor T cell response of delayed-type hypersensitivity. Nature 296: 775–776
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Scheper, R.J., von Blomberg, B.M.E. (1992). Cellular Mechanisms in Allergic Contact Dermatitis. In: Rycroft, R.J.G., Menné, T., Frosch, P.J., Benezra, C. (eds) Textbook of Contact Dermatitis. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-662-13119-0_2
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DOI: https://doi.org/10.1007/978-3-662-13119-0_2
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