Studies investigating peripheral blood derived cells that
express the high affinity receptor for immunoglobulin E
(Fc?RI) In Allergic Disorders
Studies investigating peripheral blood derived cells that
express the high affinity receptor for immunoglobulin E
(Fc?RI) In Allergic Disorders
It is just forty years since the identification of immunoglobulin E (IgE) as the reagin responsible for allergen induced immediate hypersensitivity reactions. IgE exerts its biological actions through the binding of its Fc fragment to specific Fc receptors on effector cells. There are two predominant Fc receptors for IgE – Fc?RI, which has a very high affinity for IgE and Fc?RII, which shows less avid binding. For much of the first two decades after the identification of IgE, it was thought that Fc?RI expression was limited to mast cells and basophils and that IgE binding to other cell types such as Blymphocytes and antigen presenting cells (APCs) was mainly due to Fc?RII. However with major advances in characterisation and functional knowledge of Fc?RI, particularly in the last fifteen years, it has become apparent that Fc?RI can be expressed on several more cell types that may be involved in initiation and maintenance of allergic inflammation – including APCs (monocytes and dendritic cells)
and possibly eosinophils.
The research described in the four papers forming this thesis was completed during this period and evaluated Fc?RI expression on different cell types, their potential roles in allergen induced inflammatory responses and whether successful therapeutic strategies for allergic disorders may involve actions on Fc?RI+ cells. The relative expression of Fc?RI on peripheral blood basophils, monocytes and eosinophils from atopic and non-atopic subjects and any relationship with serum IgE concentrations was assessed in the first paper. The second study examined a potentially important role for basophils as a cellular source of rapidly releasable IL-4 which may help initiate allergen induced TH2 responses. The next study investigated the possible effects on allergen induced early and late asthmatic responses of the immunosuppressive drug cyclosporin A which had been shown both to inhibit mast cell and basophil degranulation and cytokine secretion (particularly by CD4+ T-cells). The final study evaluated Fc?RI expression on these cell types as well humoral factors (e.g. seasonal changes in allergen specific IgG and IgE) in subjects who, after 3 to 4 years of grass pollen immunotherapy, had continued on either active or placebo immunotherapy for a further 3 years. A historical perspective explaining some of the reasons the studies were done is provided in the introductory chapter whilst the discussion chapter at the end reviews how many of the findings of the study have evolved in subsequent years right up to the present day and finishes off with a brief synopsis of how rapidly increasing knowledge of the regulatory functions of dendritic cells (expressing Fc?RI and often monocyte derived) has resulted in better understanding of the mechanisms of allergen specific immunotherapy and is leading to more effective treatment modalities.
Sihra, Bhupinder Singh
22fb51ae-4420-438a-99fd-0508f7430905
June 2008
Sihra, Bhupinder Singh
22fb51ae-4420-438a-99fd-0508f7430905
Roberts, Graham
ea00db4e-84e7-4b39-8273-9b71dbd7e2f3
Sihra, Bhupinder Singh
(2008)
Studies investigating peripheral blood derived cells that
express the high affinity receptor for immunoglobulin E
(Fc?RI) In Allergic Disorders.
University of Southampton, School of Medicine, Doctoral Thesis, 141pp.
Record type:
Thesis
(Doctoral)
Abstract
It is just forty years since the identification of immunoglobulin E (IgE) as the reagin responsible for allergen induced immediate hypersensitivity reactions. IgE exerts its biological actions through the binding of its Fc fragment to specific Fc receptors on effector cells. There are two predominant Fc receptors for IgE – Fc?RI, which has a very high affinity for IgE and Fc?RII, which shows less avid binding. For much of the first two decades after the identification of IgE, it was thought that Fc?RI expression was limited to mast cells and basophils and that IgE binding to other cell types such as Blymphocytes and antigen presenting cells (APCs) was mainly due to Fc?RII. However with major advances in characterisation and functional knowledge of Fc?RI, particularly in the last fifteen years, it has become apparent that Fc?RI can be expressed on several more cell types that may be involved in initiation and maintenance of allergic inflammation – including APCs (monocytes and dendritic cells)
and possibly eosinophils.
The research described in the four papers forming this thesis was completed during this period and evaluated Fc?RI expression on different cell types, their potential roles in allergen induced inflammatory responses and whether successful therapeutic strategies for allergic disorders may involve actions on Fc?RI+ cells. The relative expression of Fc?RI on peripheral blood basophils, monocytes and eosinophils from atopic and non-atopic subjects and any relationship with serum IgE concentrations was assessed in the first paper. The second study examined a potentially important role for basophils as a cellular source of rapidly releasable IL-4 which may help initiate allergen induced TH2 responses. The next study investigated the possible effects on allergen induced early and late asthmatic responses of the immunosuppressive drug cyclosporin A which had been shown both to inhibit mast cell and basophil degranulation and cytokine secretion (particularly by CD4+ T-cells). The final study evaluated Fc?RI expression on these cell types as well humoral factors (e.g. seasonal changes in allergen specific IgG and IgE) in subjects who, after 3 to 4 years of grass pollen immunotherapy, had continued on either active or placebo immunotherapy for a further 3 years. A historical perspective explaining some of the reasons the studies were done is provided in the introductory chapter whilst the discussion chapter at the end reviews how many of the findings of the study have evolved in subsequent years right up to the present day and finishes off with a brief synopsis of how rapidly increasing knowledge of the regulatory functions of dendritic cells (expressing Fc?RI and often monocyte derived) has resulted in better understanding of the mechanisms of allergen specific immunotherapy and is leading to more effective treatment modalities.
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Published date: June 2008
Organisations:
University of Southampton
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Local EPrints ID: 151547
URI: http://eprints.soton.ac.uk/id/eprint/151547
PURE UUID: 4d9b224a-f63a-4c8e-85e3-7c7cc6d5e9ce
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Date deposited: 03 Feb 2011 16:31
Last modified: 14 Mar 2024 02:50
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Author:
Bhupinder Singh Sihra
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