Publication date: 24 October 2017
Source:Cell Reports, Volume 21, Issue 4
Author(s): Julie M. Sheridan, Ashleigh Keown, Antonia Policheni, Siti N.A. Roesley, Noa Rivlin, Noam Kadouri, Matthew E. Ritchie, Reema Jain, Jakub Abramson, Tracy S.P. Heng, Daniel H.D. Gray
Evidence suggests that a stem-cell-driven differentiation hierarchy maintains the dynamic thymic epithelial cell (TEC) network that governs T lymphocyte development. The identification of TEC stem/progenitor cells has been a major focus in the field, and several candidates with contrasting phenotypes have been described. We sought to determine the provenance and function of the only population reported to exhibit TEC stem cell properties in the adult, a Foxn1− EpCAM− cell that generates so-called thymospheres. We provide evidence that the thymosphere-forming cell (TSFC) is not a TEC stem cell but can incorporate bystander TECs into thymospheres, providing an explanation for the epithelial activity ascribed to these structures. TSFCs were found to share a phenotype, transcriptional profile, and developmental origin with thymic fibroblasts and can generate adipocytes. In summary, this study redefines the nature of bipotent TEC stem/progenitor cells in the adult thymus and highlights a potentially important mesenchymal progenitor population.
Graphical abstract
Teaser
The phenotype of putative bipotent epithelial stem/progenitor cells in the adult thymus has been controversial. Sheridan et al. find that a prominent candidate, the FoxN1−EpCAM− sphere-forming cell, harbors no epithelial stem/progenitor capacity and present evidence that they are a unique intrathymic mesenchymal stromal/stem cell population with adipocyte differentiation capacity.http://ift.tt/2yRpJnU
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