CD23 structure revealed by NMR spectroscopy
By Oxford University
Sep 21, 2005, 19:22
The structure of a molecule that regulates levels of the key antibody involved in allergic reactions and asthma, IgE, has been revealed by researchers from Oxford University and King’s College London. The study, published in Journal of Experimental Medicine, will help in the discovery of drugs to treat these two conditions.
IgE is thought to make certain cells of the immune system (mast cells) more sensitive to allergens, so lowering circulating levels of active IgE is a possible way of reducing the symptoms of allergies or allergic asthma.
The low-affinity receptor for IgE, called CD23, plays a dual role in the production of IgE. It can either inhibit or stimulate the antibody’s production, depending whether it is attached or detached from the cell membrane.
Small molecules that bind to CD23 and prevent it from stimulating IgE production could be potential allergy and asthma treatments.
The researchers at Oxford and King’s used nuclear magnetic resonance (NMR) spectroscopy to discover the structure of CD23. Professor Brian Sutton from King’s, a co-researcher on the study, said: ‘Currently a therapy that blocks IgE functioning is available, but it is expensive. Drugs that prevent the production of IgE might be a much cheaper way of treating allergies. Dr James McDonnell from Oxford University, who led the study, said: ‘This is an important step forward in understanding some of the underlying mechanisms of the allergic response. Asthma UK funded part of the work. Dr Lyn Smurthwaite, their Research Development Manager said: ‘The development of new therapies for people with asthma is an important part of Asthma UK’s research programme'.
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