Two types of receptor for insulin-like growth factors in mammalian brain.

Abstract

Two types of receptor for insulin-like growth factors (IGFs) have been identified on adult rat and human brain plasma membranes by competitive binding assay, affinity labelling, receptor phosphorylation and interaction with antibodies to insulin receptors. The type I IGF receptor consists of two species of subunits: alpha-subunits (mol. wt. approximately 115 000), which bind IGF I and IGF II with almost equal affinity and beta-subunits (mol. wt. approximately 94 000), the phosphorylation of which is stimulated by IGFs. The alpha-subunits of type I IGF receptors in brain and other tissues differ significantly (mol. wt. approximately 115 000 versus 130 000), whereas the beta-subunits are identical (mol. wt. approximately 94 000). The type II IGF receptor in brain is a monomer (mol. wt. approximately 250 000) like that in other tissues. Two antibodies to insulin receptors, B2 and B9, interact with type I but not with type II IGF receptors. B2 is more potent than B9 in inhibiting IGF binding and in immunoprecipitating type I IGF receptors, in contrast to their almost equal effects on insulin receptors. This pattern is characteristic for IGF receptors in other cells. The presence of two types of IGF receptor in mammalian brain suggests a physiological role of IGFs in regulation of nerve cell function and growth. Since IGF II, but not IGF I, is present in human brain, we propose that IGF II interacts with both types of IGF receptor to induce its biological actions.