Regulation and role of the acid-labile subunit of the 150-kilodalton insulin-like growth factor complex in the mouse

Abstract 

After birth, the acid-labile subunit (ALS) associates in the circulation with insulin-like growth factor (IGF)-I or -II and with IGF binding protein-3 (IGFBP-3) to form a 150-kilodalton complex. This association leads to the retention of IGFs in the vascular system and promotes their endocrine actions. ALS is synthesized almost exclusively in liver, and both hepatic ALS mRNA and circulating levels are increased by growth hormone (GH). Three major areas of study were pursued to better understand the regulation of ALS synthesis and its role in the circulating IGF system. First, the mouse ALS gene was isolated and shown to be organized into two exons and a single intron on chromosome 17. Second, using transient transfection studies in the rat H4-II-E hepatoma cell line and primary rat hepatocytes, the region of the mouse promoter that is responsive to GH was mapped to a nine-base pair cis-element resembling a γ-interferon-activated sequence. The activation of the mouse ALS gene by GH is mediated by the binding of STAT5 isoforms to this sequence. Finally, an ALS knockout model was created by inactivating the ALS gene in mouse embryonic stem cells. Mice that are homozygous for the mutation grow at a slower rate after birth. This growth depression is associated with large decreases in the plasma concentrations of both IGF-I and IGFBP-3, indicating the critical role of ALS in the regulation of circulating levels of these proteins. Studies of this model will lead to a better understanding of the circulating IGF system.