Alpha-cell-specific expression of the glucagon gene is conferred to the glucagon promoter element by the interactions of DNA-binding proteins.

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Mol Cell Biol. 1988 November; 8(11): 4877-4888

Alpha-cell-specific expression of the glucagon gene is conferred to the glucagon promoter element by the interactions of DNA-binding proteins.

J Philippe, D J Drucker, W Knepel, L Jepeal, Z Misulovin and J F Habener

Laboratory of Molecular Endocrinology, Massachusetts General Hospital, Boston.

ABSTRACT

The glucagon gene is expressed specifically in the alpha cellsof the pancreatic islets. We show here that 300 base pairs ofthe 5'-flanking region of the rat glucagon gene, linked to achloramphenicol acetyltransferase reporter plasmid transfectedinto islet cell lines of different hormone-producing phenotypes,directs transcription only in glucagon-producing islet cells.Deletional and linker-scanning mutations and DNase I footprintingassays identify three transcriptional control elements withinthese 300 base pairs. Two of these elements (G2 and G3) independentlydisplay enhancerlike functions on both homologous and heterologouspromoters in glucagon (alpha) cells, but only on heterologouspromoters in insulin- (beta) and somatostatin- (delta) expressingcells, and not in non-islet cells. The proximal promoter element(G1), characterized by low intrinsic transcriptional activity,is critical for specific expression of the glucagon gene inalpha cells. However, nuclear extracts prepared from all threeislet cell phenotypes give similar protection to the three controlelements of the glucagon 5'-flanking sequence. We conclude thatthese phenotypically distinct islet cell lines all contain regulatoryDNA-binding proteins interacting with the three control elementsof the glucagon gene, but that factors interacting with theglucagon promoter result in transcriptional activation onlyin alpha cells, to restrict glucagon gene expression to thesecells. These observations suggest that interactions of nuclearproteins with cis-control elements are involved in the programmeddevelopmental expression of the islet polypeptide hormone genes.

Mol Cell Biol. 1988 November; 8(11): 4877-4888

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