Studies in transgenic mice reveal potential relationships between secretin-producing cells and other endocrine cell types.

We have produced transgenic mice expressing fusion genes consisting of 1.6 kilobase pairs of the secretin gene 5' flanking region to direct the expression of human growth hormone (hGH) or simian virus 40 large T antigen to secretin-producing cells. Analysis of different mouse tissues for hGH transcripts revealed expression in each of the major secretin-producing tissues, namely the intestine and endocrine pancrease. Multiple label immunohistochemistry demonstrated that the transgene was correctly directed to secretin cells in the intestinal tract, including a previously unrecognized population of secretin cells in the colon of adult and developing mice. In the small intestine, subpopulations of hGH-containing cells frequently coexpressed substance P, serotonin, and cholecystokinin, whereas in the colon, cells expressing hGH frequently coexpressed glucagon, peptide YY, or neurotensin. Transgenic mice expressing large T antigen in secretin cells developed poorly differentiated neuroendocrine tumors of the small intestine, well differentiated colonic tumors containing glucagon-expressing cells, and insulin-producing tumors in pancreas. These studies indicate that the major cis-regulatory sequences necessary for secretin expression in enteroendocrine cells and fetal islets are localized with 1.6 kilobase pairs of the transcriptional start site. Coexpression of reporter transgenes with several gastrointestinal hormones suggests a potential relationships between secretin cells and other enteroendocrine cell types, as well as pancreatic beta cells.