Project description:Global expression analysis of neural crest-like skin-derived precursors (SKPs) and Sox2-positive follicle dermal cells that SKPs originate from. In spite of the remarkable regenerative capacity of mammalian skin, an adult dermal stem cell has not yet been identified. Here, we provide evidence that SKPs, multipotent neural crest-like skin-derived precursors, represent an adult dermal stem cell. When transplanted into adult skin, SKPs can reconstitute the adult dermis, contribute to dermal wound-healing, home to a hair follicle niche, and instruct epidermal cells to make hair follicles. Hair follicle-derived SKPs self-renew, maintain their multipotency, and serially reconstitute hair follicles. The endogenous origin of SKPs are Sox2-positive follicle dermal cells that share a similar global gene expression profile with SKPs. These endogenous cells home back to their follicle niche, induce hair follicle morphogenesis, and differentiate into neural and dermal progeny. Hair follicle-associated dermal cells will move out of their niche to contribute to dermal maintenance and wound-healing. These studies therefore identify a dermal stem cell, and provide a biological rationale for the presence of a multipotent precursor within adult dermis, findings with important therapeutic implications.

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Project description:The contribution of non-resident, non-satellite myogenic progenitors to postnatal muscle homeostasis and repair is controversial. Precursor cells with the capacity to generate striated muscle fibers in vitro have been isolated from diverse adult tissues, although their physiological role being currently unclear. Since murine dermis-derived precursor cell cultures generate striated muscle when transplanted in vivo, we pursued to identify and characterize the myogenic cell population present in dermis-derived sphere cultures. Lineage tracing experiments for myogenic, perivascular and dermal precursor cell lineages showed a major contribution of Myf5 and Pax7-positive cell progeny to the dermal myogenic precursor cell subset. Tracing, in situ localization and ultrastructural analyses unequivocally demonstrated that Panniculus carnosus muscle-derived satellite stem cells expand in the dermal sphere culture conditions and originate dermis-derived myofibers in vitro. These results highlight the importance of unraveling distinct lineages in sphere cultures to avoid wrong assumptions when determining the developmental potential of adult stem cells. strain: Crl:CD1(ICR), B6.129S4-Myf5tm3(cre)Sor /J, B6,FVB-Tg(Cspg4-cre)1Akik/J, B195AP-Cre

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Project description:Here we have developed a novel FACS strategy to prospectively isolate hair follicle dermal stem cells, dermal sheath and dermal papilla cells from adult skin initiating synchronous hair follicle regeneration and identified Hic1 as a marker of hfDSCs and Rspondins as stimulators of hfDSCs and epithelial cells, and subsequently hair follicle regeneration

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