Domain one of the high affinity IgE receptor, Fc epsilon RI, regulates binding to IgE through its interface with domain two

The high affinity receptor for IgE, FceRI, binds IgE through the second Ig- like domain of the alpha subunit. The role of the first Ig-like domain is n ot well understood, but it is required for optimal binding of IgE to FceRI, either through a minor contact interaction or in a supporting structural c apacity. The results reported here demonstrate that domain one of FceRI pla ys a major structural role supporting the presentation of the ligand-bindin g site, by interactions generated within the interdomain interface. Analysi s of a series of chimeric receptors and point mutants indicated that specif ic residues within the A' strand of domain one are crucial to the maintenan ce of the interdomain interface, and IgE binding. Mutation of the Arg(15) a nd Phe(17) residues caused loss in ligand binding, and utilizing a homology model of Fc epsilon RI-alpha based on the solved structure of Fc gamma RII a, it appears likely that this decrease is brought about by collapse of the interface and consequently the IgE-binding site. In addition discrepancies in results of previous studies using chimeric IgE receptors comprising Fc epsilon RI alpha with either Fc gamma RIIa or Fc gamma RIIIA can be explain ed by the presence or absence of Arg(15) and its influence on the IgE-bindi ng site. The data presented here suggest that the second domain of FceRI a is the only domain involved in direct contact with the IgE ligand and that domain one has a structural function of great importance in maintaining the integrity of the interdomain interface and, through it, the ligand-binding site.