Published in:
Open Access
01-07-2019 | Barrett Esophagus | Original Article
Host factors influence Barrett’s carcinogenesis: findings from a mouse gastroduodenal reflux model
Authors:
Shunpei Kanai, Ken-ichi Mukaisho, Saori Yoshida, Naoko Taniura, Hiroyuki Sugihara
Published in:
Esophagus
|
Issue 3/2019
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Abstract
Background
Rat gastroduodenal reflux models have been used for analyzing Barrett’s carcinogenesis. Mice seem to be more useful than rats for studies targeting genes.
Methods
We induced gastroduodenal contents reflux by esophagojejunostomy using C57BL/6J mice. Mice were divided into a standard diet and high-fat diet groups and kept for 60 weeks. Bile was sampled from the gallbladder to analyze bile acid fractions, and the esophagus was removed for a histological investigation. Human esophagogastric junction adenocarcinoma cells (OE19) were exposed to taurocholic acid (TCA), after which cell proliferative activity was measured. Rat esophageal cancer cell lines, ESCC-DR and ESCC-DRtca with higher malignant potential induced by continuous TCA exposure, were used to perform comprehensive genetic analysis (CGH).
Results
Barrett’s epithelium onset occurred in all mice, and no differences in histological changes were noted between the standard diet and high-fat diet groups. However, no development of adenocarcinoma was noted. Most of the mouse bile acid was taurine conjugates. In the experiment using OE-19 cells, TCA promotes cell proliferation in a dose-dependent manner. Array CGH analysis revealed a large number of chromosomal abnormalities in the ESCC-DR, in addition to genetic abnormalities such as in the UGT2B gene, the substrate of which is bile acid. TCA administration resulted in more chromosomal abnormalities being detected.
Conclusions
We showed the effects of TCA in cancer progression in vitro. However, Barrett’s adenocarcinoma onset rates differ between mice and rats despite undergoing similar reflux stimulation including taurine-conjugated bile acids being detected in mouse bile juice. These results suggest that host factors seem to influence Barrett’s carcinogenesis.