Preproglucagon gene expression in pancreas and intestine diversifies at the level of post-translational processing.

Glucagon is a pancreatic hormone of 29 amino acids that regulates carbohydrate metabolism and glicentin is an intestinal peptide of 69 amino acids that contains the sequence of glucagon flanked by peptide extensions at the amino and carboxy termini. The glucagon gene encodes a precursor containing glucagon and two additional, structurally related, glucagon-like peptides separated by an intervening peptide. These peptides are encoded in separate exons. To determine whether the pancreatic and intestinal forms of glucagon arise by alternative RNA and/or protein processing, we used antisera to synthetic glucagon-like peptides and exon-specific, complementary oligonucleotides for analyses of proteins and mRNAs in pancreatic and intestinal extracts. Preproglucagon mRNAs are identical, but different and highly specific peptides are liberated in the two tissues. Immunocytochemistry shows colocalization of glucagon and the two glucagon-like peptides in identical cells. We conclude that diversification of preproglucagon gene expression occurs at the level of cell-specific post-translational processing.