Abstract
Background: Chewing of regurgitated food elicits in baboons life-long gastro-esophageal reflux (GER). The acid reflux transforms the multilayered squamous cell epithelium of the esophagus into columnar-lined mucosa with mucus-producing accessory glands. The function of this mucous gland metaplasia (MGM), which mimics Barrett's mucosa with MGM in humans, is to buffer the gastric acid entering the esophagus during regurgitation. In a previous study of entire esophagi, the majority of baboons showed MGM. The gastric mucosa was not investigated. Materials and Methods: Hematoxylin-eosin-stained sections from the esophagus, from the lesser gastric curvature and from the greater gastric curvature were collected separately from 50 adult baboons. The presence of MGM was assessed in each one of these locations. Results: MGM was demonstrated in 92% (46/50) of blocks from the esophagus, in 98% (49/50) of blocks from the lesser curvature and in 90% (45/50) of those of the greater curvature (fundus). Conclusion: The majority of the animals had MGM, not only in the esophagus but also in the proximal gastric mucosa. Rationally, MGM in baboons starts in the distal esophagus and proceeds downwards, towards the proximal stomach. The histogenesis of the MGM in Barrett's mucosa in humans (that is Barrett's mucosa type 2) remains elusive. Therefore the baboon might be an important animal model for studying the histogenesis of Barrett's mucosa with MGM in humans, a recognized pre-cancerous lesion.
At birth, the esophagus in baboons is covered with stratified squamous cell epithelium having discrete papillae and occasional accessory glands (1). After birth, the chewing of regurgitated food, that is rumination, elicits daily, life-long gastro-esophageal reflux (GER) (2, 3). This protracted reflux transforms the multilayered squamous cell-lined epithelium into columnar-lined mucosa with mucus-producing accessory glands (4). The function of this mucous gland metaplasia (MGM), which mimics Barrett's mucosa with metaplastic mucus glands in humans (5), is to buffer the gastric acid entering the esophagus during regurgitation (2, 3). Regurgitation and rumination also takes place in other non-human primates, such as chimpanzees (6, 7) and gorillas (8, 9).
In a previous study in adult baboons, the majority of the esophagi examined had MGM (mean length 10.5 mm, range 1.0-45.0 mm (10). In that work, the entire esophagus, from the base of the tongue to the angle of His, was analyzed. One relevant question, however, remained unanswered: Is the mucosa of the proximal stomach in adult baboons normal or metaplastic?
To investigate this, both the esophagus and the proximal stomach were collected separately in a cohort of adult baboons.
Materials and Methods
Fifty adult female baboons (Papio spp), members of a colony at the Southwest National Primate Research Center, Southwest Foundation for Biomedical Research were investigated. The conditions of animal housing were reported elsewhere (3). Briefly, the baboons were housed in metal and concrete indoor-outdoor cages and fed with commercial monkey diets, occasionally supplemented with a variety of fruit and vegetables. Water was available ad libitum. The animal management was carried out in accordance with the Institutional Animal Care and Use Committee guidelines.
Four cm-long blocks each, from the esophagus, the lesser gastric curvature and the greater gastric curvature were individually removed adhered to cardboard and fixed in individual jars containing 4% neutral formalin. Sections were stained with hematoxylin and eosin (H&E).
Definitions MGM. Metaplastic mucosa: built with columnar epithelium on top and mucus-producing glands underneath. Fundic mucosa: Gastric mucosa showing pits lined with columnar epithelium occupying less than one quarter of the mucosal thickness. The glandular area showed mucin-producing neck cells, and two distinct transversal domains: a parietal cell domain and a chief cell domain (11).
Statistical analysis. The nonparametric Wilcoxon test was used for comparing difference in MGM frequency in the three localizations. Statistical significance was defined as p<0.05.
Results
The results are presented in Table I.
Esophagus. Four of the 50 oesophagi (8%) were lined with squamous-cell mucosa exclusively and the remaining 46 (92%) both by squamous-cell mucosa (proximal) and MGM (distal) (Figure 1).
Stomach. i) Lesser curvature: Forty-nine out of the 50 gastric blocks (98%) from the lesser curvature exhibited MGM exclusively (Figures 2 and 3) and the remaining one (2%) had both MGM (proximal) and fundic mucosa (distal). ii) Greater curvature (fundus): Twelve out of the 50 gastric blocks (24%) from the greater curvature exhibited MGM exclusively, 33 (66%) both MGM (proximal) and fundic mucosa (distal) (Figure 4), and the remaining 5 (10%) only fundic mucosa.
The difference in the number of specimens with MGM between the esophagus and the stomach was non-significant. On the other hand, the difference in the number of specimens with MGM exclusively between lesser and greater curvatures was significant (p<0.05). The difference in the number of specimens with fundic mucosa between the greater and the lesser curvatures (p<0.05) was also significant.
Discussion
The present results demonstrated that the majority (92%) of the 50 baboon esophagi had MGM. This metaplastic transformation appears vital for buffering the gastric acid entering the distal esophagus in these ruminants (2, 3). Experimental studies in dogs indicate that it was possible for damage arising from GER to be repaired with columnar-lined epithelium creeping upwards from a pre-existing mucosa of the cardia (13). This possible mechanism seems not to apply to baboons, inasmuch as the cardia mucosa does not exist at birth in these animals (4). Some studies suggest that the metaplastic mucosa originates from normal esophageal glands (14). In baboons, there is no indication that MGM originated from the normal esophageal glands, as MGM lacks the serum-secreting cells normally present in the esophageal glands proper (10).
It is generally accepted that GER in baboons is generated by natural, daily regurgitation of gastric acid into the distal esophagus (2, 3). This mechanism leads to MGM in the distal esophagus in these animals (4, 12). Surprisingly, MGM was also found in the proximal gastric mucosa in the majority of the animals. Rationally, MGM in baboons starts in the distal esophagus and proceeds downwards, towards the proximal stomach. Nevertheless, further studies are necessary to monitor the initial location of MGM and its subsequent advancing vector along the mucosa of the upper digestive tract in these animals. Accordingly, esophageal and gastric specimens will be independently collected in new-born and young baboons at various agesfor this purpose.
The histogenesis of MGM in Barrett's mucosa in humans, namely Barrett's mucosa type 2 (5), a lesion that mimics MGM in baboons (12), remains elusive. Therefore, the baboon might be an important animal model to study the histogenesis of Barrett's mucosa with MGM in humans, a recognized pre-cancerous lesion (5).
Acknowledgements
Thanks are due to Ms. Marie Silva and Ms. Michaelle Hohmann from the Histology Laboratory and to Mr. Jesse Martinez and Mr. Jacob Martinez from the Necropsy Unit, Southwest National Primate Research Center, San Antonio, TX, for invaluable help.
Footnotes
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↵* Present address: Department of Pathology, University of Florence, Florence, Italy.
- Received March 23, 2011.
- Revision received May 16, 2011.
- Accepted May 17, 2011.
- Copyright© 2011 International Institute of Anticancer Research (Dr. John G. Delinassios), All rights reserved