Insulin-Like Growth Factor I (IGF-I) Binding in Skeletal Muscle of Lamprey Lampetra fluviatilis Predominates over Insulin Binding and Increase in the Course of Pre-Spawning Migration

Abstract

Binding of 125I-insulin and 125I-IGF-I to partially purified receptors of lamprey skeletal muscles was studied during pre-pawning migration. It has been shown that throughout this whole period the IGF-I binding to skeletal muscle predominates over the insulin binding. Besides, a certain time dynamics was observed: the insulin binding rose since October to reach maximum in February–March, then it decreased to a minimum level in May; the IGF-I binding also increased: it rose statistically significantly in March compared to October, became maximal in April, and then decreased to a minimum. The dynamics of the receptor IGF-I binding has been shown to depend on changes of receptor affinity, whereas the change of the insulin binding was determined by binding capacity (the number of binding sites). Highly specific IGF-I receptors of the lamprey skeletal muscle bound insulin with an affinity about 1% from that of IGF-I, while insulin receptors had identical affinity for the insulin and IGF-I binding. Both peptides, insulin and IGF-I, activated autophosphorylation of beta-subunits in their receptors. The increase of the IGF-I binding from October to April could be a factor that maintains a high functional activity of lamprey skeletal muscles in the course of the pre-pawning migration. It is suggested that IGF-I promotes maintaining this activity due to its property of inhibiting apoptosis.