Biochemical evidence that the phosphorylated tyrosines, serines, and threonines on the aggregated high affinity receptor for IgE are in the immunoreceptor tyrosine-based activation motifs.

Activation of cells mediated by the high affinity receptor for IgE leads to rapid phosphorylation of tyrosines (and later other residues) on the receptor's beta and gamma subunits, and there is circumstantial evidence that the tyrosines modified are in the so-called immunoreceptor tyrosine-based activation motifs (ITAMs). We identified and quantitated the residues phosphorylated on the subunits of the native receptor by comparing the properties of peptides derived from the receptors radiolabeled in vivo or in vitro with those of synthetic peptides. Our results with receptors labeled in vivo confirm that only the tyrosines in the ITAMs of beta and gamma became phosphorylated, and preferentially, those in the canonical YXX(L/I) sequences. The extent of phosphorylation of the canonical tyrosines was of the same order of magnitude, but the amino-terminal canonical tyrosine in the ITAM of the beta subunit was consistently phosphorylated to a lesser degree. The non-canonical ITAM tyrosine in the beta subunit was considerably less phosphorylated. Phosphorylation of serine (on beta) and threonine (on gamma) also occurred mainly in the ITAMs, but selectively at some positions whose characteristics seem to be conserved among other receptors containing ITAMs. The studies with receptor complexes isolated and radiolabeled in vitro gave similar results for phosphorylation of tyrosines, suggesting that the latter, much simpler system is a useful model for more detailed studies.