Long-lived keratin 15+ esophageal progenitor cells contribute to homeostasis and regeneration
Véronique Giroux, … , Timothy C. Wang, Anil K. Rustgi
Véronique Giroux, … , Timothy C. Wang, Anil K. Rustgi
Published May 8, 2017
Citation Information: J Clin Invest. 2017;127(6):2378-2391. https://doi.org/10.1172/JCI88941.
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Research Article Gastroenterology

Long-lived keratin 15+ esophageal progenitor cells contribute to homeostasis and regeneration

Abstract

The esophageal lumen is lined by a stratified squamous epithelium comprised of proliferative basal cells that differentiate while migrating toward the luminal surface and eventually desquamate. Rapid epithelial renewal occurs, but the specific cell of origin that supports this high proliferative demand remains unknown. Herein, we have described a long-lived progenitor cell population in the mouse esophageal epithelium that is characterized by expression of keratin 15 (Krt15). Genetic in vivo lineage tracing revealed that the Krt15 promoter marks a long-lived basal cell population able to self-renew, proliferate, and generate differentiated cells, consistent with a progenitor/stem cell population. Transcriptional profiling demonstrated that Krt15+ basal cells are molecularly distinct from Krt15 basal cells. Depletion of Krt15-derived cells resulted in decreased proliferation, thereby leading to atrophy of the esophageal epithelium. Further, Krt15+ cells were radioresistant and contributed to esophageal epithelial regeneration following radiation-induced injury. These results establish the presence of a long-lived and indispensable Krt15+ progenitor cell population that provides additional perspective on esophageal epithelial biology and the widely prevalent diseases that afflict this epithelium.

Authors

Véronique Giroux, Ashley A. Lento, Mirazul Islam, Jason R. Pitarresi, Akriti Kharbanda, Kathryn E. Hamilton, Kelly A. Whelan, Apple Long, Ben Rhoades, Qiaosi Tang, Hiroshi Nakagawa, Christopher J. Lengner, Adam J. Bass, E. Paul Wileyto, Andres J. Klein-Szanto, Timothy C. Wang, Anil K. Rustgi

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Figure 4

Krt15+ basal cells have a distinct transcriptional profile compared with Krt15 basal cells.

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Krt15+ basal cells have a distinct transcriptional profile compared wit...
(A and B) Krt15-CrePR1 R26mT/mG mice were injected once with 0.5 mg RU486 and sacrificed 24 hours later. Krt15+ basal cells (CD29hiGFP+) and Krt15 basal cells (CD29hiGFP) were sorted and subjected to RNA-Seq (n = 3). (A) Volcano plot representation of up- and downregulated genes in Krt15+ basal cells versus Krt15 basal cells as measured by RNA-Seq. Green dots represent significantly regulated genes (log2 fold change > 2 and adjusted P < 0.05). (B) GSEA of Krt15+ and Krt15 basal cells. Representative plots of some of the significantly enriched gene sets in Krt15+ basal cells (false discovery rate < 0.25 and P < 0.05). NES, normalized enrichment score.