Abstract
The oxyntic mucosa of the mouse stomach is lined with a heterogeneous population of cells that form numerous short pits continuous with long tubular glands. Tritiated thymidine radioautography has made it possible to pinpoint the origin of all cell types and to follow the differentiation/migration of different cell lineages along the pit-gland unit. The proliferating multipotent stem cells functionally anchored in the upper glandular region, the isthmus, give rise to three main lineage precursors: 1) pre-pit cells, which migrate upward to the pit while differentiating into mucus-producing pit cells; 2) pre-neck cells, which migrate downward to the glandular neck while differentiating into mucus-producing neck cells that, by approaching the glandular base, gradually change their phenotype into pepsinogen- and intrinsic factor-producing zymogenic cells; 3) pre-parietal cells, which differentiate into acid-producing parietal cells in the isthmus and then undergo bipolar migration towards the pit and the glandular base. Thus, parietal cells are the only cells that complete their differentiation in the isthmus and then migrate to be scattered throughout the pit-gland unit. To determine whether parietal cells play a role in controlling decisions about cell fate within the pit-gland unit, the gastric epithelium has been examined in transgenic mice expressing the H,K-ATPase beta-subunit-1035 to +24/simian virus 40 large T antigen fusion gene. The blockade in parietal cell differentiation in these mice produces an amplification of lineage precursors, a marked depletion of zymogenic cells and an increase in pit cell census. Ablation of parietal cells in another transgenic mouse model expressing the H,K-ATPase beta-subunit-1035 to +24/diphtheria toxin fragment A fusion gene also produces amplification of lineage precursors, and similar effects on zymogenic and pit cell census. These findings strongly suggest that parietal cells produce regulatory signals that control the cellular differentiation program of both pit and zymogenic cell lineages, and would hopefully improve our ability to identify the cellular pathways leading to malignant transformation.
Highlights
The mouse stomach consists of three main regions: the fundus which is lined with stratified squamous keratinized epithelium, the pyloric antrum which is continuous with the duodenum and lined with one layer of cells that invaginates to form numerous long pits continuous with short mucous glands, and the body which forms the main central region of the stomach and is lined with one layer of cells that forms numerous short pits continuous with long tubular glands
The proliferating multipotent stem cells functionally anchored in the upper glandular region, the isthmus, give rise to three main lineage precursors: 1) pre-pit cells, which migrate upward to the pit while differentiating into mucus-producing pit cells; 2) pre-neck cells, which migrate downward to the glandular neck while differentiating into mucus-producing neck cells that, by approaching the glandular base, gradually change their phenotype into pepsinogen- and intrinsic factor-producing zymogenic cells; 3) pre-parietal cells, which differentiate into acid-producing parietal cells in the isthmus and undergo bipolar migration towards the pit and the glandular base
To determine whether parietal cells play a role in controlling decisions about cell fate within the pit-gland unit, the gastric epithelium has been examined in transgenic mice expressing the H,K-ATPase ßsubunit-1035 to +24/simian virus 40 large T antigen fusion gene
Summary
The mouse stomach consists of three main regions: the fundus which is lined with stratified squamous keratinized epithelium, the pyloric antrum which is continuous with the duodenum and lined with one layer of cells that invaginates to form numerous long pits continuous with short mucous glands, and the body (or corpus) which forms the main central region of the stomach and is lined with one layer of cells that forms numerous short pits continuous with long tubular glands. We will concentrate only on the epithelial cells of the body region of the mouse stomach. The pit-gland units found in the corpus region of the mouse stomach are not static structures. Interactions amongst the different gastric epithelial cell populations play a major role in determining the structure and function of the pit-gland unit. The main objective of this review is to summarize all of these fundamental features of the pitgland units in the body region of the mouse stomach from studies in which tritiated thymidine radioautography, electron microscopy, multilabeled immunocytochemistry, and genetic manipulation techniques have been utilized
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