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Janusz A. Jankowski, Nick A. Wright, Stephen J

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1 Molecular Evolution of the Metaplasia-Dysplasia-Adenocarcinoma Sequence in the Esophagus 
Janusz A. Jankowski, Nick A. Wright, Stephen J. Meltzer, George Triadafilopoulos, Karl Geboes, Alan G. Casson, David Kerr, Lawrence S. Young  The American Journal of Pathology  Volume 154, Issue 4, Pages (April 1999) DOI: /S (10) Copyright © 1999 American Society for Investigative Pathology Terms and Conditions

2 Figure 1 Photomicrograph of intestinal metaplasia in Barrett's esophagus stained with Alcian blue/periodic acid-Schiff (mucins). Barrett's esophagus is composed of columnar lined mucus-secreting cells and a proportion of the glands will be composed of goblet cells (small arrowhead). Alcian blue diastase periodic acid-Schiff staining indicates the heterogeneity of mucin phenotypes in esophageal cells: blue (basic), red (neutral), and purple (mixed) mucins (large arrowhead). Original magnification, ×250. The American Journal of Pathology  , DOI: ( /S (10) ) Copyright © 1999 American Society for Investigative Pathology Terms and Conditions

3 Figure 2 Schematic representation of adaptation during Barrett's mucosa formation. The three compartments of the esophageal epithelium are represented on the diagrams. The bottom of each diagram shows basal compartment containing both stem cells (speckled nucleus) and proliferating cells; the middle, parabasal compartment containing proliferating cells; and the top, superficial compartment containing only mature differentiated cells. The uninflamed mucosa (right) is flat, whereas the inflamed mucosa (left) has invaginations of the basal layer, termed papillae. A: Damage to the esophageal differentiated cells in the superficial and parabasal compartments of the esophagus. B: Damage to a deeper compartment involving the squamous epithelial stem cells in the basal compartment of the papillae. C: Generation of clones with a mucin-secreting lineage resistant to acid/bile. The American Journal of Pathology  , DOI: ( /S (10) ) Copyright © 1999 American Society for Investigative Pathology Terms and Conditions

4 Figure 2 Schematic representation of adaptation during Barrett's mucosa formation. The three compartments of the esophageal epithelium are represented on the diagrams. The bottom of each diagram shows basal compartment containing both stem cells (speckled nucleus) and proliferating cells; the middle, parabasal compartment containing proliferating cells; and the top, superficial compartment containing only mature differentiated cells. The uninflamed mucosa (right) is flat, whereas the inflamed mucosa (left) has invaginations of the basal layer, termed papillae. A: Damage to the esophageal differentiated cells in the superficial and parabasal compartments of the esophagus. B: Damage to a deeper compartment involving the squamous epithelial stem cells in the basal compartment of the papillae. C: Generation of clones with a mucin-secreting lineage resistant to acid/bile. The American Journal of Pathology  , DOI: ( /S (10) ) Copyright © 1999 American Society for Investigative Pathology Terms and Conditions

5 Figure 2 Schematic representation of adaptation during Barrett's mucosa formation. The three compartments of the esophageal epithelium are represented on the diagrams. The bottom of each diagram shows basal compartment containing both stem cells (speckled nucleus) and proliferating cells; the middle, parabasal compartment containing proliferating cells; and the top, superficial compartment containing only mature differentiated cells. The uninflamed mucosa (right) is flat, whereas the inflamed mucosa (left) has invaginations of the basal layer, termed papillae. A: Damage to the esophageal differentiated cells in the superficial and parabasal compartments of the esophagus. B: Damage to a deeper compartment involving the squamous epithelial stem cells in the basal compartment of the papillae. C: Generation of clones with a mucin-secreting lineage resistant to acid/bile. The American Journal of Pathology  , DOI: ( /S (10) ) Copyright © 1999 American Society for Investigative Pathology Terms and Conditions

6 Figure 3 Schematic representation of the key molecular events in Barrett's dysplasia, the metaplasia-dysplasia-adenocarcinoma sequence (MCS). Acid and bile cause acute damage to the esophagus, which is rapidly healed by restitution or cellular replication (stages 1 and 2). In 10% of cases chronic damage to the epithelial stem cells allows rapid clonal replacement by lineages with a growth advantage containing p53 mutations (stage 2). The formation of each type of Barrett's metaplasia is dependent on the stem cell from which it arises as well as the nature of the mucosal microenvironment. Appearance of dysplasia is associated in part with loss of heterozygosity of APC or alterations in the catenins (stage 3). In 1 in 100 cases, aneuploidy and errors in DNA repair represent final pathways which disrupt invasion suppressor genes (stages 4 and 5). The transition from high grade dysplasia to invasive cancer is rapid in all cases. The American Journal of Pathology  , DOI: ( /S (10) ) Copyright © 1999 American Society for Investigative Pathology Terms and Conditions

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