Coupling of the c-Cbl protooncogene product to ErbB-1/EGF-receptor but not to other ErbB proteins.

The ErbB family of transmembrane tyrosine kinases includes the receptor for EGF (ErbB-1), two receptors for NDF/heregulin (ErbB-3 and ErbB-4) and an orphan receptor (ErbB-2). In order to examine the possibility that distinct signal transduction pathways are coupled to each ErbB protein, we examined the interaction of individual ligand-stimulated receptors with the c-Cbl protein, a protooncogene-encoded signaling molecule previously identified in hematopoietic cells. We report that c-Cbl undergoes rapid and sustained phosphorylation on tyrosine residues upon stimulation of fibroblast and epithelial cell lines with ligands of ErbB-1. By contrast, activation of either ErbB-3 or ErbB-4 by NDF did not affect tyrosine phosphorylation of c-Cbl. Likewise, activation of a chimeric ligand-stimulatable ErbB-2 by a heterologous ligand was ineffective. Despite rapidity of the EGF effect, we observed no association of c-Cbl with activated ErbB-1, implying that the interaction is indirect. Our in vitro experiments suggest that a candidate mediator of the interaction is the Grb-2/Ash adaptor protein, which is constitutively bound to c-Cbl. These results indicate that different ErbB proteins can couple to distinct signaling pathways, and therefore their physiological functions are probably non-redundant.

Proteins separated from human IgG molecules.

Immunoglobulin G binding proteins were separated from human IgG molecules using 1 N acetic acid followed by 5 M guanidinium chloride in 0.1 M acetic acid. The proteins thus obtained were heterogeneous as demonstrated by SDS-PAGE and reverse-phase HPLC. The isolated proteins consisted of two types: the C3a and C4a complement fragments (anaphylatoxins) and immunoglobulin peptide chain fragments V kappa I and C gamma 3. Both anaphylatoxins immobilized on cellulose nitrate membranes could reassociate with intact IgG molecules. The ubiquitous presence of C3a in IgG preparations was demonstrated using monoclonal antibodies specific for C3a. Nearly all of the bound anaphylatoxin molecules were found in the Fab fragment. These findings suggest that IgG molecules can eliminate anaphylatoxins from the circulation, and thus prevent harmful effects due to these active complement components.

Complexes of IgG molecules and C3a and C4a complement components in human serum.

A heterogeneous group of proteins was separated from human serum IgG using 5 M guanidine hydrochloride solution in 0.1 M acetic acid. The protein mixture was fractionated by reverse-phase high-performance liquid chromatography and two proteins were isolated and identified as the C3a and C4a complement components (anaphylatoxins) according to their molecular masses and N-terminal sequences. Using a chemical cross-linking technique, the capacity of C3a and C4a to reassociate with the heavy and the light chains of IgG was shown. On the basis of the molecular masses of reconstituted complexes one molecule of C3a (or C4a) was bound to one heavy or one light chain of IgG.