Project description:Barrett’s esophagus confers significant risk of esophageal adenocarcinoma. We have established the cloning of patient-matched stem cells of Barrett’s, gastric, and esophageal epithelium. Barrett's esophagus stem cells (BE), gastric cardia stem cells (GC) and normal esophagus stem cells (Eso) from 12 patients were cloned (For BE: 12 patients, GC: 12 patients and Eso: 2 patients). Keratin 5 positive and Keratin 7 positive cells were cloned from human fetal esophageal epithelium. Using air liquid interface culture system, stem cells were induced to differentiate into mature epithelial structures.

Project description:Barrett’s esophagus confers significant risk of esophageal adenocarcinoma. We have established the cloning system of patient-matched stem cells of Barrett’s esophagus and gastric cardia. Barrett's esophagus (BE) stem cells and gastric cardia (GC) stem cells from 12 patients were cloned. To analyze copy number variation in BE and GC stem cells, we have performed SNP array. It has shown that deletions such as p16 and FHIT in BE stem cells are significantly detected, while amplifications in BE stem cells are not. Also, we found some of BE stem cells did not share these deletions, suggesting emerging of BE does not require specific CNV.

Project description:Barrett’s esophagus confers significant risk of esophageal adenocarcinoma. We have established the cloning system of patient-matched stem cells of Barrett’s esophagus and gastric cardia. Barrett's esophagus (BE) stem cells and gastric cardia (GC) stem cells from 12 patients were cloned. To analyze copy number variation in BE and GC stem cells, we have performed SNP array. It has shown that deletions such as p16 and FHIT in BE stem cells are significantly detected, while amplifications in BE stem cells are not. Also, we found some of BE stem cells did not share these deletions, suggesting emerging of BE does not require specific CNV.

Project description:Esophageal adenocarcinoma (EAC) has the fastest increase of any cancer in the US and Europe, and arises in the setting of Barrett’s esophagus (BE), defined by replacement of normal squamous epithelium with columnar intestinal-like epithelium. BE is thought to result from chronic esophageal inflammation but has been elusive to model in animals. Herein, we have generated the first transgenic mouse model of Barrett’s esophagus through overexpression of interleukin-1ß (IL-1β). IL-1β overexpression in the mouse esophageal mucosa induces chronic inflammation that progresses to intestinal metaplasia, with characteristic expression of TFF2, Bmp4 and Cdx2. With aging, IL-1b transgenic mice progress to esophageal adenocarcinoma (EAC) but the process is markedly accelerated by exposure to bile acids and/or nitrosamines, resembling the human counterpart. Moreover, progenitor cells present in the gastric cardia, but absent from the esophagus in humans and mice, are increased in BE, suggesting the cell of origin in the gastric cardia

Project description:SAGE performed on biopsies of Barrett's esophagus, squamous esophagus and gastric cardia taken from a metaplastic Barrett's esophagus patient. Keywords: SAGE comparative analysis of gene expression profiles of Barrett's esophagus, normal squamous esophagus and gastric cardia tissue

Project description:SAGE performed on biopsies of Barrett's esophagus, squamous esophagus and gastric cardia taken from a metaplastic Barrett's esophagus patient. Keywords: SAGE

Project description:Barrett’s esophagus (BE) is a metaplastic precursor lesion of esophageal adenocarcinoma (EA), the most rapidly increasing cancer in western societies. While the prevalence of BE is increasing, the vast majority of EA occurs in patients with undiagnosed BE. Thus, we sought to identify genes that are altered in BE compared to the normal mucosa of the esophagus, and which may be potential biomarkers for the development or diagnosis of BE. We performed gene expression analysis using HG-U133A Affymetrix chips on fresh frozen tissue samples of Barrett’s metaplasia and matched normal mucosa from squamous esophagus (NE) and gastric cardia (NC) in 43 BE patients.

Project description:Microarray was used to identify differential gene expression pattern in Barrett's esophagus (BE), compared to the normal adjacent epithelia gastric cardia (GC) and normal squamous esophagus (NE)

Project description:Barrett’s esophagus confers significant risk of esophageal adenocarcinoma. We have established the cloning system of patient-matched stem cells of Barrett’s esophagus and gastric cardia. Barrett's esophagus (BE) stem cells and gastric cardia (GC) stem cells from 12 patients were cloned. To analyze copy number variation in BE and GC stem cells, we have performed SNP array. It has shown that deletions such as p16 and FHIT in BE stem cells are significantly detected, while amplifications in BE stem cells are not. Also, we found some of BE stem cells did not share these deletions, suggesting emerging of BE does not require specific CNV. SNP array based copy number variation study was performed for BE and GC stem cells from human endoscopic biopsy (12 patients) to assess genomic stability at chromosomal level.

Project description:Esophageal adenocarcinoma (EAC) has the fastest increase of any cancer in the US and Europe, and arises in the setting of BarrettM-bM-^@M-^Ys esophagus (BE), defined by replacement of normal squamous epithelium with columnar intestinal-like epithelium. BE is thought to result from chronic esophageal inflammation but has been elusive to model in animals. Herein, we have generated the first transgenic mouse model of BarrettM-bM-^@M-^Ys esophagus through overexpression of interleukin-1M-CM-^_ (IL-1M-NM-2). IL-1M-NM-2 overexpression in the mouse esophageal mucosa induces chronic inflammation that progresses to intestinal metaplasia, with characteristic expression of TFF2, Bmp4 and Cdx2. With aging, IL-1b transgenic mice progress to esophageal adenocarcinoma (EAC) but the process is markedly accelerated by exposure to bile acids and/or nitrosamines, resembling the human counterpart. Moreover, progenitor cells present in the gastric cardia, but absent from the esophagus in humans and mice, are increased in BE, suggesting the cell of origin in the gastric cardia Comparison of BE and EAC tissue from the mouse with normal squamous epithelium from the mouse.