Murine embryos that inherit a nonfunctional insulin-like growth factor-If/cation-independent mannose 6-phosphate receptor (Igf2r) gene from their fathers are viable and develop normally into adults. However, the majority of mice inheriting the same mutated allele from their mothers die around birth, as a consequence of major cardiac abnormalities. These mice do not express IGF2R in their tissues, are 25-30% larger than their normal siblings, have elevated levels of circulating IGF2 and IGF-binding proteins, and exhibit a slight kink in their tails. These results show that lgf2r is paternally imprinted and reveal that the receptor is crucial for regulating normal fetal growth, circulating levels of IGF2, and heart development.
The insulin-like growth factor-II/cation-independent mannose 6-phosphate receptor (IGF-II/MPR) is a multifunctional protein that binds IGF-II and ligands containing a mannose 6-phosphate recognition marker. Recent studies have shown that this receptor plays a critical role in mammalian development, and that its expression is controlled by both epigenetic and tissue-specific factors. Our laboratory has cloned the 93-kilobase mouse gene and characterized its 48 exons. In this report we describe the structure and function of the IGF-II/MPR gene promoter. To study promoter function, a series of chimeric plasmids linking different segments of IGF-II/MPR 5' flanking DNA to the reporter gene, firefly luciferase, were transiently transfected into HepG2 and C3H 10T1/2 cells. Promoter activity was orientation-specific and was maximal (550- to 4250-fold above promoterless control) with a plasmid containing 266 base pairs (bp) of IGF-II/MPR DNA. The fusion gene accurately directed transcription as measured by ribonuclease protection assay using RNA extracted from transfected cells. DNA-protein binding studies by in vitro DNase I footprinting revealed an extended 54-bp footprint within the proximal promoter that contained two E-boxes and potential binding sites for transcription factors Sp1, NGF-IA, and related proteins. Gel mobility shift experiments with double-stranded oligonucleotides containing this region gave rise to several specific DNA-protein complexes, and the addition of specific antibodies indicated that proteins antigenically related to Sp1 and c-Myc were components of one or more of these bands. Deletion of this 54-bp segment led to an 8-fold decline in promoter activity, and its transfer to a heterologous promoter stimulated gene expression by nearly 7-fold. Mutational analyses indicated that each E box contributed to more than half of the enhancer's activity. These results define a strong minimal IGF-II/MPR promoter of no more than 266 bp and identify a 54-bp enhancer within this promoter fragment. Our observations thus represent a first step toward characterizing the developmental, epigenetic, and tissue-specific factors that control IGF-II/MPR gene expression.
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