Tissue-resident PDGFRα stromal cells modulate both fibrosis and tissue revascularization during wound repair

PDGFRα+ cells are interstitial/perivascular mesenchymal progenitor cells that have been associated with fibro-adipogenic processes. However, their function during tissue homeostasis or in response to revascularization and regeneration stimuli remains to be fully defined. Here, by high-throughput transcriptomic analysis, adoptive transfer and multicolor lineage tracking we showed that PDGFRα+ cells from skeletal muscle cluster as a population that is transcriptionally distinct from other mesenchymal stromal cells and with an essential role in tissue revascularization and restructuring of ischemic areas. We further showed that tissue regeneration involves the removal of differentiated PDGFRα+-derived cells, while pathological healing occurred if PDGFRα+-derived cells persisted as terminally differentiated mesenchymal cells (e.g. myofibroblasts). From the perspective of tissue regeneration, these studies support a context-dependent 'yin-yang' biology of PDGFRα+ cells, that possess an innate ability to stabilize newly formed blood vessels and concurrently limit injury expansion after ischemia, while also being capable of promoting fibrosis in an unfavorable environment. RNA-seq on mouse tissues