Insulin-like growth factor II (IGF-II). Its role among regulatory peptides of the insulin superfamily

Abstract

The review presents data on the insulin-like growth factor-II (IGF-II), a regulatory peptide included in the insulin superfamily, as its structure and function are the closest to those of insulin and IGF-I. The last decade investigations revealed the biological properties of IGF-II which distinguish it from related peptides. The primary sequence of the IGF-II structure has peculiar differences from those of insulin but insignificant ones from IGF-I. The tertiary structure of IGF-II is similar to that of the related peptide molecules, but a peculiar receptor-binding domain in the IGF-II molecule provides for its unique capability of interacting with receptors. IGF-II interacts with three types of receptors: receptors of IGF-I, IGF-2, and insulin. IGF-II has the highest affinity to IGF-2 receptors but its mitogenic effects are mediated by IGF-I receptors (i.e., the phenomenon of divergence of binding and biological activities). The arguments obtainedin vitro andin vivo are presented, which confirm propagation of mitogenic effects by IGF-I receptors but deny participation of IGF-2 receptors. The structural and functional bivalency of the M6P/IGF-2 receptor (a peculiar form of the M6P receptor in mammals) is considered in detail. The results of interactions of IGF-II and the M6P/IGF-2 receptors are not yet known. The primary function of the M6P/IGF-2 receptor (sorting and transport of the lysosomal enzymes) is likely to be due to the peptides inactivation and does not imply its participation in the IGF-II signaling. However, several data do not permit ruling out participation of the IGF-2 receptor in the IGF-II effects different from mitogenic ones. The organization of related peptide gene in the lancelet allows us to suggest the appearance of the IGF-II gene at the initial steps of the vertebrate evolution and to trace all stages of formation of two separate IGF genes up to the mammalian IGF-II and IGF-I genes with different structural organizations. The IGF-II expression by embryonic tissues is revealed earlier than that of other related peptides and reaches the highest level at the embryonal period. The general regularities of the IGF-II regulatory activity in embryogenesis and of the growth hormone effect on the IGF-II expression in embryonal tissues are considered.