Comparative in situ topoproteome analysis reveals differences in patch test‐induced eczema: cytotoxicity‐dominated nickel versus pleiotrope pollen reaction

Please cite this paper as: Comparative in situ topoproteome analysis reveals differences in patch test‐induced eczema: cytotoxicity‐dominated nickel versus pleiotrope pollen reaction. Experimental Dermatology 2010; 19: 511–517.

[1]  J. Hanifin Basic and clinical aspects of atopic dermatitis. , 1984, Annals of allergy.

[2]  J. Dayer,et al.  IL-21 promotes survival and maintains a naive phenotype in human CD4+ T lymphocytes. , 2008, International immunology.

[3]  A. Wollenberg,et al.  Atopy patch test reactions show a rapid influx of inflammatory dendritic epidermal cells in patients with extrinsic atopic dermatitis and patients with intrinsic atopic dermatitis. , 2003, The Journal of allergy and clinical immunology.

[4]  S. Bonini,et al.  Allergenic pollen and pollen allergy in Europe , 2007, Allergy.

[5]  R. Mannucci,et al.  Human CD1-restricted T cell recognition of lipids from pollens , 2005, The Journal of experimental medicine.

[6]  E. Knol,et al.  Clinical and immunologic variables in skin of patients with atopic eczema and either positive or negative atopy patch test reactions. , 2000, The Journal of allergy and clinical immunology.

[7]  I I Lelis,et al.  [Atopic dermatitis]. , 1980, Vestnik dermatologii i venerologii.

[8]  Michael Loran Dustin,et al.  Mechanisms of Cellular Avidity Regulation in CD2-CD58-Mediated T Cell Adhesion. , 2006, ACS chemical biology.

[9]  J. Ring,et al.  Lipid mediators from pollen act as chemoattractants and activators of polymorphonuclear granulocytes. , 2002, The Journal of allergy and clinical immunology.

[10]  B. Bonnekoh,et al.  The CD11a Binding Site of Efalizumab in Psoriatic Skin Tissue as Analyzed by Multi-Epitope Ligand Cartography Robot Technology , 2006, Skin Pharmacology and Physiology.

[11]  J. Hanifin,et al.  Atopic dermatitis in adults: evaluation of peripheral blood mononuclear cells proliferation response to Staphylococcus aureus enterotoxins A and B and analysis of interleukin‐18 secretion , 2008, Experimental dermatology.

[12]  J. Ring,et al.  IL-17 in atopic eczema: linking allergen-specific adaptive and microbial-triggered innate immune response. , 2009, The Journal of allergy and clinical immunology.

[13]  Walter Schubert,et al.  Topological proteomics, toponomics, MELK-technology. , 2003, Advances in biochemical engineering/biotechnology.

[14]  B. Bonnekoh,et al.  Topo-Proteomic in situ Analysis of Psoriatic Plaque under Efalizumab Treatment , 2007, Skin Pharmacology and Physiology.

[15]  D. Leung,et al.  Role of Bacterial Superantigens in Atopic Dermatitis , 2006, American journal of clinical dermatology.

[16]  Hanifin Jm Basic and clinical aspects of atopic dermatitis. , 1984 .

[17]  R. Valenta,et al.  Autoimmunity and atopic dermatitis , 2004, Current opinion in allergy and clinical immunology.

[18]  J. Ring,et al.  The 'atopy patch test' in evaluating the role of aeroallergens in atopic eczema. , 1997, International archives of allergy and immunology.

[19]  T. Werfel,et al.  Staphylococcus aureus‐derived enterotoxins enhance house dust mite‐induced patch test reactions in atopic dermatitis , 2007, Experimental dermatology.

[20]  L. Picker,et al.  Control of lymphocyte recirculation in man. II. Differential regulation of the cutaneous lymphocyte-associated antigen, a tissue-selective homing receptor for skin-homing T cells. , 1993, Journal of immunology.

[21]  W. Schubert,et al.  Analyzing proteome topology and function by automated multidimensional fluorescence microscopy , 2006, Nature Biotechnology.

[22]  Martin J. Mueller,et al.  Abbreviations used: Bet.-APE, , 2022 .

[23]  N. Kondo,et al.  Characterization of infiltrating CD4+ cells in atopic dermatitis using CD45R and CD29 monoclonal antibodies. , 1994, Annals of allergy.

[24]  K. Andersen,et al.  New aspects in allergic contact dermatitis , 2008 .

[25]  C. Bruijnzeel-Koomen,et al.  Biphasic response against aeroallergen in atopic dermatitis showing a switch from an initial TH2 response to a TH1 response in situ: an immunocytochemical study. , 1996, The Journal of allergy and clinical immunology.

[26]  J. Ring,et al.  Airborne and dietary allergens in atopic eczema: a comprehensive review of diagnostic tests , 2000, Clinical and experimental dermatology.

[27]  C. Albanesi,et al.  Interleukin-17 is produced by both Th1 and Th2 lymphocytes, and modulates interferon-gamma- and interleukin-4-induced activation of human keratinocytes. , 2000, The Journal of investigative dermatology.

[28]  H. Behrendt,et al.  Determinants of allergenicity. , 2009, The Journal of allergy and clinical immunology.

[29]  C. Akdis,et al.  Absence of T-regulatory cell expression and function in atopic dermatitis skin. , 2006, The Journal of allergy and clinical immunology.

[30]  C. Akdis,et al.  The differential fate of cadherins during T-cell-induced keratinocyte apoptosis leads to spongiosis in eczematous dermatitis. , 2001, The Journal of investigative dermatology.

[31]  Annette Menzel,et al.  Impact of Pollen on Human Health: More Than Allergen Carriers? , 2003, International Archives of Allergy and Immunology.

[32]  P. Schmid‐Grendelmeier,et al.  IgE-mediated and T cell-mediated autoimmunity against manganese superoxide dismutase in atopic dermatitis. , 2005, The Journal of allergy and clinical immunology.

[33]  Colin N A Palmer,et al.  Common loss-of-function variants of the epidermal barrier protein filaggrin are a major predisposing factor for atopic dermatitis , 2006, Nature Genetics.

[34]  J. Ring,et al.  High Prevalence of Superantigens Associated with the egc Locus in Staphylococcus aureus Isolates from Patients with Atopic Eczema , 2003, European Journal of Clinical Microbiology and Infectious Diseases.

[35]  A. Wollenberg,et al.  Viral infections in atopic dermatitis: pathogenic aspects and clinical management. , 2003, The Journal of allergy and clinical immunology.

[36]  J. Ring,et al.  Seasonality in symptom severity influenced by temperature or grass pollen: results of a panel study in children with eczema. , 2005, The Journal of investigative dermatology.

[37]  G. Trinchieri,et al.  Plasmacytoid dendritic cells in immunity , 2004, Nature Immunology.

[38]  J. Krutmann,et al.  Analysis of the cytokine pattern expressed in situ in inhalant allergen patch test reactions of atopic dermatitis patients. , 1995, The Journal of investigative dermatology.

[39]  C. Akdis,et al.  Increased activation-induced cell death of high IFN-gamma-producing T(H)1 cells as a mechanism of T(H)2 predominance in atopic diseases. , 2008, The Journal of allergy and clinical immunology.

[40]  U. Wahn,et al.  Prevalence and role of serum IgE antibodies to the Staphylococcus aureus-derived superantigens SEA and SEB in children with atopic dermatitis. , 1999, The Journal of allergy and clinical immunology.

[41]  C. Albanesi,et al.  Disparate Cytotoxic Activity of Nickel-Specific CD8+ and CD4+ T Cell Subsets Against Keratinocytes1 , 2000, The Journal of Immunology.

[42]  J. Ring,et al.  Atopy patch test with different vehicles and allergen concentrations: an approach to standardization. , 1995, The Journal of allergy and clinical immunology.

[43]  K. Andersen,et al.  New aspects in allergic contact dermatitis. , 2008, Current opinion in allergy and clinical immunology.

[44]  S. Durham,et al.  Preferential messenger RNA expression of Th1-type cells (IFN-gamma+, IL-2+) in classical delayed-type (tuberculin) hypersensitivity reactions in human skin. , 1992, Journal of immunology.

[45]  L. Jones,et al.  The role of skin-homing T cells in extrinsic atopic dermatitis. , 2006, QJM : monthly journal of the Association of Physicians.

[46]  A. Cavani,et al.  New aspects of the molecular basis of contact allergy , 2007, Current opinion in allergy and clinical immunology.

[47]  P. Schmid‐Grendelmeier,et al.  Sensitization to the yeast Malassezia sympodialis is specific for extrinsic and intrinsic atopic eczema. , 2006, The Journal of investigative dermatology.

[48]  Henning Hofmeister,et al.  In-situ-topoproteome analysis of cutaneous lymphomas: perspectives of assistance for dermatohistologic diagnostics by Multi Epitope Ligand Cartography (MELC). , 2008, Journal der Deutschen Dermatologischen Gesellschaft = Journal of the German Society of Dermatology : JDDG.

[49]  B. Blanco,et al.  The effect of mesenchymal stem cells on the viability, proliferation and differentiation of B-lymphocytes , 2008, Haematologica.

[50]  J. Ring,et al.  Pollen Grains Induce a Rapid and Biphasic Eczematous Immune Response in Atopic Eczema Patients , 2007, International Archives of Allergy and Immunology.