Receptor aggregation is necessary for activation of the soluble insulin receptor kinase.

Purified polyclonal human antibodies (B-8) against the receptor for insulin (anti-R IgG), and their F(ab')2 and Fab' fragments, were used to study a possible role of receptor aggregation in the process that couples insulin binding with the activation of the insulin receptor kinase. Anti-R IgG, F(ab')2, and Fab' fragments were shown to inhibit insulin binding to solubilized partially purified receptor preparations from rat liver. This suggests that the antibodies and fragments bind near or at the insulin-binding site. Only anti-R IgG and its bivalent F(ab')2 fragments were capable of stimulating the receptor kinase activity. Monovalent Fab' fragments were completely devoid of such activity. Cross-linking of anti-R Fab' with goat anti-human Fab' restored the capability of the Fab' fragments to activate the receptor kinase. These data strongly suggest that receptor cross-linking or aggregation constitutes a sufficient trigger to activate the insulin-receptor kinase and could, therefore, be an important step in the transmembrane signaling process. This step presumably precedes the activation of the receptor kinase and the resulting phosphorylation of its protein substrates.