BACKGROUND: Serum IgG(4) responses to allergen immunotherapy are well documented as blocking allergen binding to receptor-bound IgE on antigen-presenting cells and effector cells, but the molecular characteristics of treatment-induced IgG(4), particularly in relation to expressed antibody, are poorly defined. OBJECTIVES: We aimed to clone and express recombinant IgG(4) from patients receiving grass pollen immunotherapy using single B cells to obtain matched heavy- and light-chain pairs. METHODS: IgG(4)(+) B cells were enriched from blood samples taken from 5 patients receiving grass pollen immunotherapy. Matched heavy- and light-chain variable-region sequences were amplified from single IgG(4)(+) B cells. Variable regions were cloned and expressed as recombinant IgG(4). Binding analysis of grass pollen-specific IgG(4) was performed by using surface plasmon resonance. Functional assays were used to determine IgE blocking activity. In a separate experiment grass pollen-specific antibodies were depleted from serum samples to determine the proportion of grass pollen-specific IgG(4) within total IgG(4). RESULTS: Depletion of grass pollen-specific antibodies from serum led to a modest reduction in total IgG(4) levels. Matched heavy- and light-chain sequences were cloned from single IgG(4)(+) B cells and expressed as recombinant IgG(4). We identified an IgG(4) that binds with extremely high affinity to the grass pollen allergen Phl p 7. Furthermore, we found that a single specific mAb can block IgE-mediated facilitated allergen presentation, as well as IgE-mediated basophil activation. CONCLUSION: Although increases in IgG(4) levels cannot be wholly accounted for within the allergen-specific fraction, allergen immunotherapy might result in the production of high-affinity allergen-specific blocking IgG(4).
BACKGROUND: Serum IgG(4) responses to allergen immunotherapy are well documented as blocking allergen binding to receptor-bound IgE on antigen-presenting cells and effector cells, but the molecular characteristics of treatment-induced IgG(4), particularly in relation to expressed antibody, are poorly defined. OBJECTIVES: We aimed to clone and express recombinant IgG(4) from patients receiving grass pollen immunotherapy using single B cells to obtain matched heavy- and light-chain pairs. METHODS: IgG(4)(+) B cells were enriched from blood samples taken from 5 patients receiving grass pollen immunotherapy. Matched heavy- and light-chain variable-region sequences were amplified from single IgG(4)(+) B cells. Variable regions were cloned and expressed as recombinant IgG(4). Binding analysis of grass pollen-specific IgG(4) was performed by using surface plasmon resonance. Functional assays were used to determine IgE blocking activity. In a separate experiment grass pollen-specific antibodies were depleted from serum samples to determine the proportion of grass pollen-specific IgG(4) within total IgG(4). RESULTS: Depletion of grass pollen-specific antibodies from serum led to a modest reduction in total IgG(4) levels. Matched heavy- and light-chain sequences were cloned from single IgG(4)(+) B cells and expressed as recombinant IgG(4). We identified an IgG(4) that binds with extremely high affinity to the grass pollen allergen Phl p 7. Furthermore, we found that a single specific mAb can block IgE-mediated facilitated allergen presentation, as well as IgE-mediated basophil activation. CONCLUSION: Although increases in IgG(4) levels cannot be wholly accounted for within the allergen-specific fraction, allergen immunotherapy might result in the production of high-affinity allergen-specific blocking IgG(4).
Authors: Lowiek M Hubers; Lucas J Maillette de Buy Wenniger; Marieke E Doorenspleet; Paul L Klarenbeek; Joanne Verheij; Erik A Rauws; Thomas M van Gulik; Ronald P J Oude Elferink; Stan F J van de Graaf; Niek de Vries; Ulrich Beuers Journal: Clin Rev Allergy Immunol Date: 2015-06 Impact factor: 8.667
Authors: Amedee Renand; Luis D Archila; John McGinty; Erik Wambre; David Robinson; Belinda J Hales; Wayne R Thomas; William W Kwok Journal: J Allergy Clin Immunol Date: 2015-09-11 Impact factor: 10.793
Authors: Sarita U Patil; Adebola O Ogunniyi; Agustin Calatroni; Vasisht R Tadigotla; Bert Ruiter; Alex Ma; James Moon; J Christopher Love; Wayne G Shreffler Journal: J Allergy Clin Immunol Date: 2015-05-16 Impact factor: 10.793
Authors: Mattias Levin; Jasmine J King; Jacob Glanville; Katherine J L Jackson; Timothy J Looney; Ramona A Hoh; Adriano Mari; Morgan Andersson; Lennart Greiff; Andrew Z Fire; Scott D Boyd; Mats Ohlin Journal: J Allergy Clin Immunol Date: 2015-11-11 Impact factor: 10.793
Authors: Panagiotis Karagiannis; Amy E Gilbert; Debra H Josephs; Niwa Ali; Tihomir Dodev; Louise Saul; Isabel Correa; Luke Roberts; Emma Beddowes; Alexander Koers; Carl Hobbs; Silvia Ferreira; Jenny L C Geh; Ciaran Healy; Mark Harries; Katharine M Acland; Philip J Blower; Tracey Mitchell; David J Fear; James F Spicer; Katie E Lacy; Frank O Nestle; Sophia N Karagiannis Journal: J Clin Invest Date: 2013-04 Impact factor: 14.808