David M. Ansell scite author profile

Epithelial-to-mesenchymal transition (EMT) is critical for embryonic development and wound healing, and occurs in fibrotic disease and carcinoma. Here, we show that EMT also occurs within the bulge, the epithelial stem cell (eSC) niche of human scalp hair follicles, during the inflammatory permanent alopecia, lichen planopilaris. We show that a molecular EMT signature can be experimentally induced in healthy human eSCs in situ by antagonizing E-cadherin, combined with transforming growth factor-β1, epidermal growth factor, and IFN-γ administration, which to our knowledge has not been reported previously. Moreover, induction of EMT within primary human eSCs can be prevented and even partially reversed ex vivo by peroxisome proliferator-activated receptor-γ agonists, likely through suppression of the transforming growth factor-β signaling pathway. Furthermore, we show that peroxisome proliferator-activated receptor-γ agonists also attenuates the EMT signature even in lesional lichen planopilaris hair follicles ex vivo. We introduce lichen planopilaris as a model disease for pathological EMT in human adult eSCs, report a preclinical assay for therapeutically manipulating eSC EMT within a healthy human (mini-)organ, and show that peroxisome proliferator-activated receptor-γ agonists are promising agents for suppressing and partially reversing EMT in human hair follicles eSCs ex vivo, including in lichen planopilaris.

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Exploring the “Hair Growth–Wound Healing Connection”: Anagen Phase Promotes Wound Re-Epithelialization

Ansell

Kloepper

Thomason

et al. 2011

Journal of Investigative Dermatology

144

116

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When the skin is damaged, a variety of cell types must migrate, proliferate, and differentiate to reform a functional barrier to the external environment. Recent studies have shown that progenitor cells residing in hair follicles (HFs) are able to contribute to this re-epithelialization of wounds in vivo. However, the influence of the hair cycle on wound healing has not previously been addressed. Here, we have exploited spontaneous postnatal hair-cycle synchronicity in mice to systematically examine the influence of the different hair-cycle stages on murine skin wound healing. We report significant acceleration of healing during the anagen phase of HF cycling in vivo, associated with alterations in epithelial, endothelial, and inflammatory cell types. Intriguingly, gene profiling data reveal a clear correlation between the transcription of genes beneficial for wound healing and those upregulated during the anagen phase of the hair cycle in unwounded skin. These findings, which demonstrate a previously unappreciated association between HF cycling and wound healing, reveal numerous molecular correlates for further investigation.

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Animal models of wound repair: Are they cutting it?

Ansell

Holden

Hardman

2012

Experimental Dermatology

119

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Current understanding of the complex process of wound repair is based on decades of study. Integral to this understanding has been the use of in vitro and in vivo models to uncover the key molecular players. Now that major wound processes are more fully understood, therapeutic strategies can be developed to manipulate wound repair. Particularly important areas for future research include developing therapies to aid treatment of healing pathologies such as chronic wounds, and manipulating the normal healing processes to drive a more regenerative phenotype in adults. Here, we discuss the benefits and limitations of current animal-based models and highlight the urgent need for improved predictive preclinical models for wound healing research. We conclude by suggesting directions where more robust models of chronic wound pathologies may arise, expediting the development of novel therapies.

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David M. Ansell

Epithelial-to-Mesenchymal Stem Cell Transition in a Human Organ: Lessons from Lichen Planopilaris

Exploring the “Hair Growth–Wound Healing Connection”: Anagen Phase Promotes Wound Re-Epithelialization

Animal models of wound repair: Are they cutting it?

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