Abstract (Aims) We report experimental and clinical evidence that COX2 represent a potential molecular target for the treatment and prevention of esophageal cancer. (Methods) (A)Experiment: Thirty 8-week male wistar rats were exposed to duodenal content esophageal reflux. All animal underwent an esophagoduodenal anastomosis (EDA) with total gastrectomy in order to produce chronic esophagitis. In ten rats the sham (Control). They were sacrified at 40th week. Their esophagi were examined for HE, COX2,PGE2, PCNA and total bile acids in the esophageal lumen was measured. (B)Clinical: The expression of COX2 was examined for 68 specimens of esophageal squamous cell carcinoma (SCC) and the correlation of COX2 expression with clinicopatholigic features was examined. (Results) (A) After 40 weeks of reflux, columnar dysplasia, squamous cell carcinoma and adenocarcinoma were found. Total bile acid in the esophageal lumen was significantly increased in the EDA group compared with the sham operated rats. PCNA LI and esophageal tissue PGE2 were higher in dysplastic and cancer tissue than that of control. Overexpression of COX2 was shown in dysplastic and cancer tissue. COX2 may play an important role in esophageal cancer by duodenal content reflux.(B) COX2 immunoreactivity was weak in 27(40%) and strong in 41(60%) of the carcinomas. The proportion of poorly differentiated SCC among tumors with a strong expression of COX2 (34%) was significantly higher than among tumors with a weak expression of COX2 (19%, p=0.02). The depth of tumors (p=0.004), lymph node metastasis (p=0.0009) and the stage of the tumors (p=0.001) were advanced significantly more progressively in ECCS with a strong COX2 expression. Moreover, survival was significantly reduced (p=0.02) among patients with strong COX2 expression when compared with the COX2 weak group. This study showed that strong expression of COX2 was correlated with tumor progression and poor differentiation in ESCC. (Conclusion) In this experimental study, we demonstrate that bile reflux of duodenal contents induce COX2 and increase prostaglandin synthesis in dysplastic and cancer tissue. Our study suggests that COX2 may play a role in esophageal carcinoma development and progression, COX2 inhibitors may be potential targets for the prevention or treatment of esophageal carcinoma.
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