AI Article Synopsis
- Barrett's esophagus is a condition where normal esophageal cells transform into a different type, which can lead to cancer, often due to chronic acid exposure from GERD.
- Researchers used microarray analysis on tissue samples from normal esophagus, Barrett's esophagus, and the small intestine to pinpoint genetic changes related to this transformation, focusing on the Cdx1 transcription factor and c-myc pathway.
- The study found that both Cdx1 and c-myc can work together to trigger changes in esophageal cells, indicating they play a critical role in the early development of Barrett's esophagus.
Article Abstract
Background: Barrett's esophagus is a premalignant condition whereby the normal stratified squamous esophageal epithelium undergoes a transdifferentiation program resulting in a simple columnar epithelium reminiscent of the small intestine. These changes are typically associated with the stratified squamous epithelium chronically exposed to acid and bile salts as a result of gastroesophageal reflux disease (GERD). Despite this well-defined epidemiologic association between acid reflux and Barrett's esophagus, the genetic changes that induce this transdifferentiation process in esophageal keratinocytes have remained undefined.
Methodology/principal Findings: To begin to identify the genetic changes responsible for transdifferentiaiton in Barrett's esophagus, we performed a microarray analysis of normal esophageal, Barrett's esophagus and small intestinal biopsy specimens to identify candidate signaling pathways and transcription factors that may be involved. Through this screen we identified the Cdx1 homeodomain transcription factor and the c-myc pathway as possible candidates. Cdx1 and c-myc were then tested for their ability to induce transdifferentiation in immortalized human esophageal keratinocytes using organotypic culturing methods. Analyses of these cultures reveal that c-myc and cdx1 cooperate to induce mucin production and changes in keratin expression that are observed in the epithelium of Barrett's esophagus.
Conclusions/significance: These data demonstrate the ability of Cdx1 and c-myc to initiate the earliest stages of transdifferentiation of esophageal keratinocytes toward a cell fate characteristic of Barrett's esophagus.
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Source |
|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2568822 | PMC |
| http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0003534 | PLOS |
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