Characterization in mice of the stromal niche maintaining AT2 stem cell proliferation in homeostasis and disease.
2021
Resident mesenchymal cells (rMCs defined as Cd31Neg Cd45Neg EpcamNeg ) control the proliferation and differentiation of alveolar epithelial type 2 (AT2) stem cells in vitro. The identity of these rMCs is still elusive. Among them, Axin2Pos mesenchymal alveolar niche cells (MANCs), which are expressing Fgf7, have been previously described. We propose that an additional population of rMCs, expressing Fgf10 (called rMC-Sca1Pos Fgf10Pos ) are equally important to maintain AT2 stem cell proliferation. The alveolosphere model, based on the AT2-rMC co-culture in growth factor reduced Matrigel, was used to test the efficiency of different rMC subpopulations isolated by FACS from adult murine lung to sustain the proliferation and differentiation of AT2 stem cells. We demonstrate that rMC-Sca1Pos Fgf10Pos cells are efficient to promote the proliferation and differentiation of AT2 stem cells. Co-staining of adult lung for Fgf10 mRNA and Sftpc protein respectively, indicate that 28% of Fgf10Pos cells are located close to AT2 cells. Co-ISH for Fgf7 and Fgf10 indicate that these two populations do not significantly overlap. Gene arrays comparing rMC-Sca1Pos Axin2Pos and rMC-Sca1Pos Fgf10Pos support that these two cell subsets express differential markers. In addition, rMC function is decreased in obese ob/ob mutant compared to WT mice with a much stronger loss of function in males compared to females. In conclusion, rMC-Sca1Pos Fgf10Pos cells play important role in supporting AT2 stem cells proliferation and differentiation. This result sheds a new light on the subpopulations of rMCs contributing to the AT2 stem cell niche in homeostasis and in the context of pre-existing metabolic diseases. © AlphaMed Press 2021 SIGNIFICANCE STATEMENT: The mesenchyme is still a black box. It contains many subpopulations which remain to be characterized. In particular, the Cd31NegCd45NegEpcamNegSca1Pos (called resident mesenchymal cells (rMC-Sca1Pos)) has been reported to support epithelial stem cell self-renewal. We have used a robust and reproducible flow cytometry strategy associated with the alveolosphere assay to characterize further this subpopulation. Our results indicate that rMC-Sca1PosFgf10Pos-LIFs support AT2 stem cell self-renewal and differentiation. We have also compared this subpopulation to the previously described rMC-Sca1PosAxin2Pos cells. Our results indicate that they are two distinct populations. In addition, we demonst.
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