Our data indicate that -- on the level of TH lymphocytes -- SIT induces tolerance to the allergen and a modulation of the cytokine pattern produced in response to allergen stimulation.
Twenty–four patients suffering from grass pollen allergy underwent sublingual immunotherapy (SLIT) with standardized grass pollen extract for 1 year. In order to investigate immunological changes induced by the administration of allergens via the oral mucosa, the SLIT–spit method was applied. The cumulative dose of approximately 80 μg of major allergen (grass group 5 allergen), was relatively low. During the time of treatment, we could observe a significant increase in the levels of specific IgG and IgG4 antibodies. However, the titers of allergen–specific IgE antibodies showed a significant increase in the course of SLIT as well. Analyzing lymphoproliferative responses, a significant decrease in reactivity in response to stimulation with complete grass pollen extract (p = 0.001) and to recombinant Phl p 1 (a major allergen of timothy grass, p<0.001) could be observed, indicating the induction of immunological tolerance. Proliferative responses to a control antigen (tetanus toxoid) were not influenced by the treatment. At different time points during SLIT, allergen (Phl p 1)–specific T cell clones (TCC) were established from the peripheral blood of the patients. Cytokine production by allergen–stimulated T cells did not reveal any changes consistent with immune deviation, i.e. the ratio of Th1/Th2 TCC did not change during SLIT. In conclusion, we provide evidence that sublingual treatment leads to systemic changes in immunoreactivity to the administered allergen.
The immune response towards allergens in non-allergic healthy individuals was investigated. T cell lines (TCL) with specificity for Bet v 1, the major birch pollen allergen, were established and analysed for epitope specificity. 49 T cell clones (TCC) specific for Bet v 1 were isolated from TCLs. All TCCs revealed the Th phenotype. Cytokine production in response to specific stimulation revealed a majority of Th clones producing interleukin (IL)-4 and interferon (IFN)-γ; however, most TCCs revaled a low IL-4/IFN-γ ratio. Immunoblot revealed Bet v 1-specific IgG in non-allergic individuals whereas no IgE could be detected. Our results indicate that T cells from allergic and non-allergic individuals recognize the same epitopes on allergenic molecules, leading to activation, which then results in a differential production of cytokines and consequently to differential isotype switching in allergen-specific B cells.
Background: The interaction of T cell receptors (TCRs) with peptide fragments bound to major histocompatibility complex (MHC) molecules is central to the initiation and propagation of most immune responses. In order to understand and control the molecular interactions underlying T cell recognition of MHC/peptide complexes, recent efforts have focused on the production of recombinant soluble forms of the TCR heterodimer. Methods: TCRA variable (TCRAV) and TCRBV sequences used by human T cell clones were amplified by PCR, cloned and sequenced. The deduced amino acid sequences of the complementarity determining region (CDR) 3 loops of TCRs specific for the same allergenic epitope were compared. V region genes of a selected TCR were expressed as a single-chain (sc) molecule in the periplasm of Escherichia coli. Results: Conserved amino acid motifs specific for allergenic peptides of Bet v 1 and Phl p 1 were identified in CDR3 sequences of TCRs. A recombinant scTCR was produced. The ratio of insoluble to soluble material was 1:1. The recombinant protein was of the correct size and showed no signs of degradation. Conclusions: Conservation of amino acid motifs in CDR3 loops of TCRs specific for the same allergen fragments indicated that the three-dimensional structure of the CDR3 was determined by the presented peptide. The recombinant scTCR will be used to identify ligands for the CDR3s from random peptide libraries to interfere with TCR binding to the MHC/peptide complex.
The immune response toward allergens in nonallergic healthy individuals was investigated. To boost immune responses, two injections of birch pollen extract were administered to five nonallergic volunteers. T cell lines (TCL) with specificity for Bet v 1, the major birch pollen allergen, were established and analyzed for epitope specificity using overlapping peptides. Forty-nine T cell clones (TCC) specific for Bet v 1 were isolated from TCLs. Comparison with TCL and TCC established from birch pollen-allergic patients was performed. All TCC revealed the Th phenotype. Epitope specificities of TCL and TCC from nonatopics were identical to those found in allergic individuals. No association between MHC class II molecules and particular epitopes could be observed. In nonallergic as well as in allergic individuals, cytokine production in response to specific stimulation revealed a majority of Th-clones producing IL-4 and IFN-gamma. However, TCC derived from atopic individuals revealed a higher IL-4/IFN-gamma ratio. Immunoblot and ELISA revealed Bet v 1-specific IgG in nonallergic individuals before and after booster injections, but no IgE could be detected. High levels of Bet v 1-specific IgG and IgE could be detected in birch pollen-allergic patients. It can be concluded, that nonatopic and allergic individuals display the same repertoire of T cell specificities. In allergic individuals, the activation of allergen-specific TCC leads to a higher ratio of produced IL-4 vs IFN-gamma, which is responsible for enhanced IgE production.
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