Biomarkers in Barrett's Esophagus

Differentiating dysplasia markers in Barrette sophagus and adenocarcinoma

Barrett’s esophagus (BE) is the only known precursor of esophageal adenocarcinoma (EAC). This precancerous lesion can transform into low-grade and high-grade dysplasia, which may develop in the EAC. Therefore, the issues of dysplasia detection and monitoring and early diagnostics for the presence of EAC foci are extremely important factors in the surveillance of patients with BE progression. Histopathological examinations are regarded as the gold standard in the BE progression evaluation. They posses a large clinical utility in the identification of dysplasia and cancer risk stratification in patients with the BE. However, this method is a very subjective, and is heavily dependent on the knowledge and experience of the person conducting it. Therefore, it seems to be important to implement in the BE progression diagnostics sensitive and specific biomarkers that could be used as complementary tests. They could improve detection, stratification and monitoring of the progression of BE and the detection of the EAC early stages. Literature data concerning markers distinguishing between different stages of Barrett’s-related dysplasia and cancer is very scarce. In this article there we collected and characterized the most important data. Apart from this, there is a fairly large group of proteins and genes. Their expression levels allow for the detection of changes during the development of the BE progression. No studies have been carried out yet for their usefulness in differentiating between types of BE-related dysplasia and EAC, but we know that some of them could be useful as auxiliary markers differentiating between different stages of dysplasia and EAC. The article discusses those with the greatest potential.

Biomarkers for Barrett's esophagus - a contemporary review

INTRODUCTION

Esophageal adenocarcinoma (EAC) has a poor 5-year survival rate (10%-18%), and incidence has increased dramatically in the past three decades. Barrett's esophagus (BE) is the precursor lesion to EAC and is the replacement of the normally squamous lined esophagus with columnar cells that develop an intestinal phenotype characterized by the presence of goblet cells. Given the known precursor state, EAC is amenable to screening and surveillance strategies (analogous to colon cancer). However, unlike from colon cancer screening, BE poses challenges that make effective screening difficult. Robust and concerted effort is under way to find biomarkers of BE. Areas covered: This review summarizes current known biomarkers for BE. These include dysplasia, genomic markers, and gene expression alterations that occur early in the dysplasia/carcinoma sequence. Expert commentary: Despite the tremendous breadth of work in studying molecular advances, the ideal biomarker for BE has not yet been discerned. This review comments on innovations in the field of BE research that combine state-of-the-art molecular advances with simple technologies.

Prevalence and pathogenesis of Barrett's esophagus in Luoyang, China

BACKGROUND

Prevalence of Barrett's esophagus (BE) in Luoyang, China, has not been reported, and its pathogenesis is controversial. The aim of this study was therefore to investigate the prevalence of BE and its underlying factors in the city of Luoyang.

METHOD

This was a prospective study in one center. Many patients were analyzed using endoscopy who showed upper gastrointestinal symptoms between August 2006 and June 2007. In addition, the effect of apoptosis-related proteins and heat shock proteins upon BE's pathogenesis were also investigated by an immunohistochemical protocol.

RESULTS

Prevalence of BE was at 4.55% and the mean age of those affected was about 10 years older than for esophagitis. Typical reflux symptoms were significantly lower than with esophagitis, whereas signs of caspase-3 and HSP105 elevation were significantly higher. Expression of TERT, HSP70 and HSP90α in BE cases was significantly lower than in esophagitis. However, there was no statistical difference between the two groups in expression of HSP27.

CONCLUSIONS

The prevalence of BE is high in Luoyang, which could result from esophagitis despite typical reflux symptoms being relatively uncommon. Initiation and development of BE might be the result of accelerated proliferation, apoptosis and differentiation of original cells to intestinal epithelium.

Molecular imaging for guiding oncologic prognosis and therapy in esophageal adenocarcinoma

In the past 30 years, the incidence of esophageal adenocarcinoma (ACA) has increased significantly. Sadly, advances in treatment have not followed the same trend, and the prognosis for patients with esophageal ACA remains poor, with a 5-year survival rate of only 15%. Like most cancers, early detection is the key to improving prognosis, but this outcome has proven difficult in the esophagus for several reasons: 1) patients present with advanced disease because "alarm symptoms," such as dysphagia, occur at a late stage, and 2) high-grade dysplasia (HGD) and early ACA are not visible on routine surveillance endoscopy. Currently, the recommended surveillance strategy involves collection of random biopsies, an imperfect technique that is limited by sampling error and is infrequently used because of the considerable time and cost it requires. Even in patients with biopsy-proven dysplasia, adequate guidance for clinical management decisions is still lacking. Dysplasia alone is not an entirely reliable biomarker for the risk of progression to ACA because the natural history of this condition is extremely variable. Clearly, there is a need for additional biomarkers that can better characterize this disease and thus improve our ability to treat patients on an individual basis. As we better understand the molecular changes that lead to the development of this cancer, new molecular biomarkers are needed to allow for more personalized diagnoses, surveillance, and treatment. Targeted agents against epidermal growth factor receptor (EGFR), human epidermal growth factor receptor 2 (HER2), and vascular endothelial growth factor (VEGF) are currently being evaluated for their role in combination chemotherapy for metastatic esophageal ACA. As these studies progress, a reliable approach for determining receptor status in individual patients is essential. Molecular imaging uses fluorescent probes that target specific cell-surface receptors, and has the potential to evaluate an individual patient's gene expression profile. By topically applying fluorescent probes to dysplastic epithelium during endoscopy, a variety of receptors can be visualized, and the response to treatment can be monitored in real time. This technique can mitigate the limitations of current surveillance protocols, allow for improved cancer detection, and be used for personalized treatment in the future.