Bifunctional ectodermal stem cells around the nail display dual fate homeostasis and adaptive wounding response toward nail regeneration

Leung, Yvonne; Kandyba, Eve; Chen, Yibu; Ruffins, Seth; Chuong, Cheng‐Ming; Kobielak, Krzysztof

doi:10.1073/pnas.1318848111

Cited by 34 publications

(55 citation statements)

References 30 publications

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“…3A) [37]. In agreement with this, a recent study using the LRC technique identified nail stem cells within the basal layer of the PNF, organized in a ring-like configuration around the nail root [38].…”

Section: Nail Stem Cellssupporting

confidence: 75%

“…By contrast, in alopecia areata, which is regarded as a T cell-mediated autoimmune disease, it was suggested that IP collapse in the anagen hair bulb may be induced by upregulation of interferon-gamma, triggers of which include infection and psychoemotional stress [45]. [38] (mouse), proximal NM [24] (mouse), distal NM [23] (mouse). (B) Immune privilege (IP) in the hair follicle and the nail unit.…”

Section: Immunology Of the Nailmentioning

confidence: 99%

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Exploring the biology of the nail: An intriguing but less-investigated skin appendage

Saito

Ohyama

Amagai

2015

Journal of Dermatological Science

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Section: Nail Stem Cellssupporting

confidence: 75%

Section: Immunology Of the Nailmentioning

confidence: 99%

Exploring the biology of the nail: An intriguing but less-investigated skin appendage

Saito

Ohyama

Amagai

2015

Journal of Dermatological Science

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“…Instead, they found label-retaining cells within the proximal nail fold that give rise to the eponychium during homeostatic conditions. They also showed that, during long-term growth or wounding/regenerative conditions, these cells have a binary potential and can differentiate into the nail plate, thus leading to the conclusion that the proximal nail fold harbors nail stem cells (35). Although these data are seemingly in conflict with both the preexisting literature as well as the data we present in this article, the differences in experimental markers and timing of pulses/ analyses can rectify most of the discrepancies.…”

Section: Discussionmentioning

confidence: 57%

“…We confirm that the nail matrix gives rise to the nail plate, and in addition, we show that Lgr6 is a molecular marker specific to the nail stem cells. Interestingly, Leung et al recently performed a Keratin5 TetOff ;TreH2BGFP pulse-chase experiment to identify label-retaining cells in the digit tip and did not find a presumptive stem cell population within the nail matrix (35). Instead, they found label-retaining cells within the proximal nail fold that give rise to the eponychium during homeostatic conditions.…”

Section: Discussionmentioning

confidence: 99%

“…A similar differential response has been revealed within the digit tip such that the Keratin5/15-marked label-retaining cells within the proximal nail fold serve as the stem cell pool for the eponychium, and only after long term quiescent growth do they give rise to occasional cells in the nail plate. However, upon mechanical ablation of the nail, these stem cells significantly increase their contribution to the nail plate (35), implying an inherent plasticity to this stem cell population during tissue stress. Taken in the context of the Lgr6 −/− experiments in this article, this finding suggests that, upon wounding of the nail matrix/plate, the eponychium stem cells may be capable of regenerating the nail matrix or specifically generating Lgr6-expressing nail stem cells; however, if this is the cellular hierarchy, in our experiments, these cells were insufficient to rescue the Lgr6 −/− phenotype.…”

Section: Discussionmentioning

confidence: 99%

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Lgr6 marks nail stem cells and is required for digit tip regeneration

Lehoczky

Tabin

2015

Proc. Natl. Acad. Sci. U.S.A.

109

128

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The tips of the digits of some mammals, including human infants and mice, are capable of complete regeneration after injury. This process is reliant on the presence of the overlaying nail organ and is mediated by a proliferative blastema. Epithelial Wnt/β-catenin signaling has been shown to be necessary for mouse digit tip regeneration. Here, we report on Lgr5 and Lgr6 (leucine-rich repeat-containing G protein-coupled receptor 5 and 6), two important agonists of the Wnt pathway that are known to be markers of several epithelial stem cell populations. We find that Lgr5 is expressed in a dermal population of cells adjacent to the specialized epithelia surrounding the keratinized nail plate. Moreover, Lgr5-expressing cells contribute to this dermis, but not the blastema, during digit tip regeneration. In contrast, we find that Lgr6 is expressed within cells of the nail matrix portion of the nail epithelium, as well as in a subset of cells in the bone and eccrine sweat glands. Genetic lineage analysis reveals that Lgr6-expressing cells give rise to the nail during homeostatic growth, demonstrating that Lgr6 is a marker of nail stem cells. Moreover, Lgr6-expressing cells contribute to the blastema, suggesting a potential direct role for Lgr6-expressing cells during digit tip regeneration. This role is confirmed by analysis of Lgr6-deficient mice, which have both a nail and bone regeneration defect.

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Enrichment of Scleroderma Vascular Disease–Associated Autoantigens in Endothelial Lineage Cells

Cottrell

Wigley

Antiochos

et al. 2016

Arthritis & Rheumatology

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Objective Scleroderma patients with autoantibodies to centromere proteins (CENPs) and/or interferon-inducible protein 16 (IFI16) are at increased risk of severe vascular complications. We set out to define whether these autoantigens are enriched in cells of the vasculature. Methods Successive stages of embryoid bodies (EBs) as well as vascular progenitors were used to evaluate the expression of scleroderma autoantigens IFI16 and CENP by immunoblotting. CD31 was included to mark early blood vessels. IFI16 and CD31 expression were defined in skin paraffin sections from scleroderma patients and from healthy controls. IFI16 expression was determined by flow cytometry in circulating endothelial cells (CECs) and circulating progenitor cells (CPCs). Results Expression of CENP-A, IFI16 and CD31 was enriched in EBs at days 10 and 12 of differentiation, and particularly in cultures enriched in vascular progenitors (IFI16, CD31, CENPs A and-B). This pattern was distinct from that of comparator autoantigens. Immunohistochemical staining of skin paraffin sections showed enrichment of IFI16 in CD31-positive vascular endothelial cells in biopsies from scleroderma patients and normal controls. Flow cytometry analysis revealed IFI16 expression in CPCs, but minimal expression in CECs. Conclusion Expression of scleroderma autoantigens IFI16 and CENPs, which are associated with severe vascular disease, is increased in vascular progenitors and mature endothelial cells. High level, lineage-enriched expression of autoantigens may explain the striking association between clinical phenotypes and the immune targeting of specific autoantigens.

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Bifunctional ectodermal stem cells around the nail display dual fate homeostasis and adaptive wounding response toward nail regeneration

Cited by 34 publications

References 30 publications

Exploring the biology of the nail: An intriguing but less-investigated skin appendage

Exploring the biology of the nail: An intriguing but less-investigated skin appendage

Lgr6 marks nail stem cells and is required for digit tip regeneration

Enrichment of Scleroderma Vascular Disease–Associated Autoantigens in Endothelial Lineage Cells

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