Jane Sterling scite author profile

Skin-derived precursor cells (SKPs) are multipotent neural crest-related stem cells that grow as self-renewing spheres and are capable of generating neurons and myelinating glial cells. SKPs are of clinical interest because they are accessible and potentially autologous. However, although spheres can be readily isolated from embryonic and neonatal skin, SKP frequency falls away sharply in adulthood, and primary sphere generation from adult human skin is more problematic. In addition, the culture-initiating cell population is undefined and heterogeneous, limiting experimental studies addressing important aspects of these cells such as the behavior of endogenous precursors in vivo and the molecular mechanisms of neural generation. Using a combined fatemapping and microdissection approach, we identified and characterized a highly enriched niche of neural crest-derived sphere-forming cells within the dermal papilla of the hair follicle of adult skin. We demonstrated that the dermal papilla of the rodent vibrissal follicle is 1,000-fold enriched for sphere-forming neural crest-derived cells compared with whole facial skin. These "papillaspheres" share a phenotypic and developmental profile similar to that of SKPs, can be readily expanded in vitro, and are able to generate both neuronal and glial cells in response to appropriate cues. We demonstrate that papillaspheres can be efficiently generated and expanded from adult human facial skin by microdissection of a single hair follicle. This strategy of targeting a highly enriched niche of sphere-forming cells provides a novel and efficient method for generating neuronal and glial cells from an accessible adult somatic source that is both defined and minimally invasive.

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Production of human papillomavirus type 16 virions in a keratinocyte cell line

Sterling

Stanley

Gatward

et al. 1990

J Virol

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Human papillomavirus type 16 (HPV-16) is strongly associated with carcinoma of the cervix, but the complete life cycle of the virus cannot be studied because no experimental system is available in which HPV-16 progeny are produced, and there is currently no source of HPV-16 virus particles. Most cell lines that harbor HPV-16 DNA contain the viral genome as integrated or concatenated DNA in which open reading frames are disrupted or deleted, but a human cervical keratinocyte cell line has been described which maintains HPV-16

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Jane Sterling

Efficient generation of neural precursors from adult human skin: astrocytes promote neurogenesis from skin-derived stem cells

A Highly Enriched Niche of Precursor Cells with Neuronal and Glial Potential Within the Hair Follicle Dermal Papilla of Adult Skin

Production of human papillomavirus type 16 virions in a keratinocyte cell line

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