The hormonal action of IGF1 in postnatal mouse growth.

The mammalian insulin-like growth factor 1 (IGF1), which is a member of a major growth-promoting signaling system, is produced by many tissues and functions throughout embryonic and postnatal development in an autocrine/paracrine fashion. In addition to this local action, IGF1 secreted by the liver and circulating in the plasma presumably acts systemically as a classical hormone. However, an endocrine role of IGF1 in growth control was disputed on the basis of the results of a conditional, liver-specific Igf1 gene knockout in mice, which reduced significantly the level of serum IGF1, but did not affect average body weight. Because alternate interpretations of these negative data were tenable, we addressed genetically the question of hormonal IGF1 action by using a positive experimental strategy based on the features of the cre/loxP recombination system. Thus, we generated bitransgenic mice carrying in an Igf1 null background a dormant Igf1 cDNA placed downstream of a transcriptional "stop" DNA sequence flanked by loxP sites (floxed) and also a cre transgene driven by a liver-specific promoter. The Igf1 cDNA, which was inserted by knock-in into the mutated and inactive Igf1 locus itself to ensure proper transcriptional regulation, was conditionally expressed from cognate promoters exclusively in the liver after Cre-mediated excision of the floxed block. Our genetic study demonstrated that the endocrine IGF1 plays a very significant role in mouse growth, as its action contributes approximately30% of the adult body size and sustains postnatal development, including the reproductive functions of both mouse sexes.