Abstract
Glucagon-like peptide 2 (GLP-2) is a newly discovered gastrointestinal peptide with 33% sequence homology to glucagon. GLP-2 has attracted interest because of its potent intestinotrophic endocrine / paracrine actions. The peptide, consisting of 33-amino-acid, results from expression of the glucagon gene in the enteroendocrine L-cells of the intestinal mucosa, from where it is released mainly in response to luminal contact with unabsorbed nutrients. In addition to mucosal growth, GLP-2 enhances activities of several intestinal brush-border enzymes, and it delays gastric transit, thereby increasing the intestinal capacity for nutrient absorption. Thus, it appears that GLP-2 serves to ensure an optimal intestinal capacity. The physiological responses following exogenous administration of GLP-2 have been intensely investigated, and these appear to be rather specific for the gut, which is concordant with the localization of the GLP-2 receptor. In addition, treatment with GLP-2 in experimental animal models of several enteropathies indicates that GLP-2 ameliorates most of the observed intestinal abnormalities in these conditions. Following secretion to the blood stream, the intact peptide is degraded rather rapidly by an aminopeptidase. To circumvent the rapid and widespread metabolization of intact GLP-2, degradation-resistant synthetic GLP-2 analogues have been developed together with other approaches, such as inhibition of the GLP-2 degrading enzyme. This is of particular interest with respect to developing GLP-2 into a useful therapeutic agent in conditions with compromised intestinal function, since the first clinical trial has already indicated the potential of GLP-2 treatment in patients with short bowel syndrome.
Keywords: Proglucagon-derived peptides, glucagon-like peptide 2, growth factors, intestinal growth, dipeptidyl peptidase IV