A developmentally regulated form of insulin-like growth factor receptor beta-subunit in C2 myoblasts exhibiting altered requirements for differentiation.

Abstract

Ligand-dependent autophosphorylation and immunoprecipitation have been used to distinguish insulin and insulin-like growth factor-I (IGF-I) receptor beta-subunits in the permissive and inducible subclones of the C2 myoblast cell line. Permissive myoblasts differentiate spontaneously, whereas myoblasts of the inducible subclone require exogenous IGFs to undergo terminal differentiation. Permissive myoblasts contain beta-subunits of 95 and 101 kilodalton (kDa) mol wt. The 95-kDa subunits are immunoprecipitated with antipeptide antibodies directed against tyrosine kinase (AbP2), juxtamembrane (AbP4), and carboxy-terminal (AbP5) domains of the insulin receptor and insulin receptor monoclonal antibody 29B4. The tryptic phosphopeptide map of the 95-kDa band suggests that it contains both insulin and IGF-I receptor beta-subunits. The 101-kDa subunit is immunoprecipitated by AbP2, AbP4, and AbP5, because it forms a hybrid complex with the 95-kDa protein, but it does not react directly with AbP4, AbP5, or antibody 29B4. Phosphorylation of the 101-kDa subunit is more responsive to IGF-I than to IGF-II or insulin, indicating that it is a second IGF-I receptor beta-subunit. Inducible myoblasts exhibit a single major beta-subunit of 106 kDa mol wt. Its immunoreactivity and phosphopeptide map are virtually identical to those of the 101-kDa IGF-I receptor beta-subunit from permissive cells. However, unlike the 101-kDa beta-subunit, phosphorylation of the 106-kDa protein appears to be more responsive to IGF-II than to either IGF-I or insulin. It is lost upon differentiation of myoblasts into myotubes concomittant with the appearance of 95- and 101-kDa beta-subunits. These data demonstrate 1) an alpha 2 beta 2 IGF receptor that has high sensitivity for IGF-II in inducible, but not in permissive, myoblasts; 2) the beta-subunit of this receptor exhibits different migration in sodium dodecyl sulfate-polyacrylamide gels from either of those found in permissive cells; and 3) expression of this beta-subunit is developmentally regulated. This suggests that the inducible cell beta-subunit is a component of a stage-specific alpha 2 beta 2 IGF receptor subtype that functions as an IGF-II receptor.