Abstract
Immunoglobulin E (IgE) is the antibody that plays a central role in the mechanisms of allergic diseases such as asthma. Interactions with its receptors, FcεRI on mast cells and CD23 on B cells, are mediated by the Fc region, a dimer of the Cε2, Cε3 and Cε4 domains. A sub-fragment lacking the Cε2 domains, Fcε3–4, also binds to both receptors, although receptor binding almost exclusively involves the Cε3 domains. This domain also contains the N-linked glycosylation site conserved in other isotypes. We report here the crystal structures of IgE-Fc and Fcε3–4 at the highest resolutions yet determined, 1.75Å and 2.0Å respectively, revealing unprecedented detail regarding the carbohydrate and its interactions with protein domains. Analysis of the crystallographic B-factors of these, together with all earlier IgE-Fc and Fcε3–4 structures, shows that the Cε3 domains exhibit the greatest intrinsic flexibility and quaternary structural variation within IgE-Fc. Intriguingly, both well-ordered carbohydrate and disordered polypeptide can be seen within the same Cε3 domain. A simplified method for comparing the quaternary structures of the Cε3 domains in free and receptor-bound IgE-Fc structures is presented, which clearly delineates the FcεRI and CD23 bound states. Importantly, differential scanning fluorimetric analysis of IgE-Fc and Fcε3–4 identifies Cε3 as the domain most susceptible to thermally-induced unfolding, and responsible for the characteristically low melting temperature of IgE.
Highlights
Immunoglobulin E (IgE) plays a central role in the molecular and cellular mechanisms of allergy, and is a validated therapeutic target in the development of new approaches to treat allergic diseases such as asthma
The IgE-Fc structure, space group P21212, with one molecule in the asymmetric unit has been determined to 1.75Å resolution (Fig. 1D), which is the highest reported for this structure
The structure of the carbohydrate, disposition of domains compared with other IgE-Fc and Fc 3-4 structures, and relative flexibility within and between domains, will be discussed
Summary
IgE plays a central role in the molecular and cellular mechanisms of allergy, and is a validated therapeutic target in the development of new approaches to treat allergic diseases such as asthma. It exerts its effects through its two principal receptors, Fc RI on mast cells, basophils and antigen-presenting cells, and CD23/Fc RII on B cells. The Fc RI binding site comprises two sub-sites, one on each C 3 domain [4, 5], and the C 2 domains are not directly involved, they contribute to this slow off-rate since the Fc 3-4 fragment, lacking these domains, has a somewhat faster off-rate (koff = 3.2 x 10-3s-1) [3]. The C 3 domain is the critical domain for receptor binding
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