Etienne C.E. Wang scite author profile

Graphical Abstract Highlights d JAK-STAT5 signaling maintains quiescence in hair follicle stem cells (HFSCs) d Oncostatin M (OSM) acts upstream of JAK-STAT5 signaling to maintain HFSC quiescence d A subset of TREM2 + macrophages in the mouse skin is the source of OSM d Specific ablation of macrophages in the mouse skin is associated with anagen entry SUMMARY Hair growth can be induced from resting mouse hair follicles by topical application of JAK inhibitors, suggesting that JAK-STAT signaling is required for maintaining hair follicle stem cells (HFSCs) in a quiescent state.Here, we show that Oncostatin M (OSM), an IL-6 family cytokine, negatively regulates hair growth by signaling through JAK-STAT5 to maintain HFSC quiescence. Genetic deletion of the OSM receptor or STAT5 can induce premature HFSC activation, suggesting that the resting telogen stage is actively maintained by the hair follicle niche. Single-cell RNA sequencing revealed that the OSM source is not intrinsic to the hair follicle itself and is instead a subset of TREM2 + macrophages that is enriched within the resting follicle and deceases immediately prior to HFSC activation. In vivo inhibition of macrophage function was sufficient to induce HFSC proliferation and hair cycle induction. Together these results clarify how JAK-STAT signaling actively inhibits hair growth.

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Telogen Effluvium – a review of the science and current obstacles

Yin

Siong-See

Wang

2021

Journal of Dermatological Science

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Immune cell regulation of the hair cycle

Wang

2020

Experimental Dermatology

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The ability to manipulate the mammalian hair cycle will lead to novel therapies and strategies to combat all forms of alopecia. Thus, in addition to the epithelial‐mesenchymal interactions in the hair follicle, niche and microenvironmental signals that accompany the phases of growth, regression and rest need to be scrutinized. Immune cells are well described in skin homeostasis and wound healing and have recently been shown to play an important role in the mammalian hair cycle. In this review, we will summarize our current knowledge of the role of immune cells in hair cycle control and discuss their relevance to human hair cycling disorders. Increased attention to this aspect of the hair cycle will provide new avenues to manipulate hair regeneration in humans and provide better insight into developing better ex vivo models of hair growth.

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The Changing Landscape of Alopecia Areata: The Translational Landscape

Wang

Christiano

2017

Adv Ther

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Recent genetic and preclinical studies have increased our understanding of the immunopathogenesis of alopecia areata (AA). This has allowed expedited development of targeted therapies for the treatment of AA, and a paradigm shift in our approach and understanding of autoimmunity and the hair follicle. The synergy between preclinical studies, animal models, and translational studies has led to unprecedented advances in the treatment options for AA, ultimately benefiting patients who have had little recourse. In this review, we summarize the scientific field of contemporary AA research, and look forward to potential new technologies and developments.

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Etienne C.E. Wang

A Subset of TREM2+ Dermal Macrophages Secretes Oncostatin M to Maintain Hair Follicle Stem Cell Quiescence and Inhibit Hair Growth

Telogen Effluvium – a review of the science and current obstacles

Immune cell regulation of the hair cycle

The Changing Landscape of Alopecia Areata: The Translational Landscape

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