Molecular anatomy of an endodermal gland: Investigations on mucus glycoproteins and cell turnover in Brunner's glands of didelphis verginiana using lectins and PCNA immunoreactivity

Brunner's glandsl are located in the submucosa of the proximal duodenum and are unique to mammalian species. The North American opossum (Didelphis virginiana) is generally regarded as a prototype marsupial that closely resembles fossil didelphids which can be placed at the beginning of mammalian evolution. The current investigation provided an opportunity for the analysis of secretory products from these glands in a species thought to be more closely related to earlier evolutionary forms. Extracts of Brunner's glands were subjected to SDS‐PAGE and Western Blotting. The results indicate the presence of two high molecular weight PAS‐positive glycoprotein bands. In addition to these two PAS‐positive bands, several other glycoprotein bands were detected in the high molecular weight range that bind several lectins which typically recognize O‐linked carbohydrates indicative of mucus type glycoproteins. The same lectins bind to glandular structures in tissue sections. Comparison of lectin binding sites with the pyloric glands of the stomach and duodenal goblet cells indicates that brunner's glands carbohydrate residues resemble those of the pyloric glands more closely than those of the duodenal goblet cells. The low cell turnover rate in brunner's glands is in contrast to the rapid turnover rate of goble cell precursors in the duodenal crypts. The mucus composition and the cell turnover rate correlate well with embryological data and suggest that Brunner's glands of Didelphis evolved from an epithelium more closely associated closely associated with the stomach than that of the duodenum as the topography of the gland would suggest. © Wiley‐Liss, Inc.