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TISSUE-SPECIFIC STEM CELLS

Identification of Candidate Murine Esophageal Stem Cells Using a Combination of Cell Kinetic Studies and Cell Surface Markers

^aSurgical Oncology Laboratory, Peter MacCallum Cancer Centre, East Melbourne, Victoria, Australia;
^bUniversity of Melbourne Department of Surgery, St. Vincent's Hospital, Fitzroy, Victoria, Australia;
^cEpithelial Stem Cell Biology Laboratory, Peter MacCallum Cancer Centre, East Melbourne, Victoria, Australia

Key Words. Esophagus • Stem cells • Transferrin receptor • ₆ Integrin • Keratinocyte • Epithelial cell

Correspondence: Wayne A. Phillips, Ph.D., Centre for Cancer Genomics and Predictive Medicine, Peter MacCallum Cancer Centre, Locked Bag 1, A'Beckett Street, Melbourne, VIC 8006, Australia. Telephone: +61-3-9656 1842; Fax: +61-3-9656 1411; e-mail: wayne.phillips{at}petermac.org

Received July 12, 2006; accepted for publication October 3, 2006.
First published online in STEM CELLS EXPRESS   October 12, 2006.



The identification and characterization of esophageal stem cells are critical to our understanding of the biology of the esophageal epithelium in health and disease. However, the proliferative compartment within the mouse esophageal epithelium remains poorly characterized. Here, we report that the basal cells of the mouse esophagus can be separated into three phenotypically and functionally distinct subpopulations based on the expression of ₆ integrin and transferrin receptor (CD71). Cells that express high levels of ₆ integrin and low levels of CD71, termed ₆^briCD71^dim, are a minor subpopulation of small and undifferentiated cells that are enriched for label-retaining cells and thus represent a putative esophageal stem cell population. Conversely, cells expressing high levels of both ₆ integrin and CD71 (₆^briCD71^bri), the majority of basal esophageal cells, are enriched for actively cycling cells and therefore represent a transit-amplifying population. Kinetic analyses revealed that a third cell population, which is ₆ integrin-dim and CD71-bright (₆^dim), is destined to leave the basal layer and differentiate.