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Reprogramming of three-dimensional microenvironments for in vitro hair follicle induction

During embryonic development, reciprocal interactions between epidermal and mesenchymal layers trigger hair follicle morphogenesis. This study revealed that microenvironmental reprogramming via control over these interactions enabled hair follicle induction in vitro. A key approach is to modulate sp...

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Published in:	Science advances 2022-10, Vol.8 (42), p.eadd4603-eadd4603
Main Authors:	Kageyama, Tatsuto, Shimizu, Akihiro, Anakama, Riki, Nakajima, Rikuma, Suzuki, Kohei, Okubo, Yusuke, Fukuda, Junji
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Language:	English
Subjects:	Biomedicine and Life Sciences Engineering Regeneration SciAdv r-articles
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creator	Kageyama, Tatsuto Shimizu, Akihiro Anakama, Riki Nakajima, Rikuma Suzuki, Kohei Okubo, Yusuke Fukuda, Junji
description	During embryonic development, reciprocal interactions between epidermal and mesenchymal layers trigger hair follicle morphogenesis. This study revealed that microenvironmental reprogramming via control over these interactions enabled hair follicle induction in vitro. A key approach is to modulate spatial distributions of epithelial and mesenchymal cells in their spontaneous organization. The de novo hair follicles with typical morphological features emerged in aggregates of the two cell types, termed hair follicloids, and hair shafts sprouted with near 100% efficiency in vitro. The hair shaft length reached ~3 mm in culture. Typical trichogenic signaling pathways were up-regulated in hair follicloids. Owing to replication of hair follicle morphogenesis in vitro, melanosome production and transportation were also monitored in the hair bulb region. This in vitro hair follicle model might be valuable for better understanding hair follicle induction, evaluating hair growth and inhibition of hair growth by drugs, and modeling gray hairs in a well-defined environment. This study proposes an approach for highly efficient regeneration of hair follicles with long hair shafts in vitro.
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subjects	Biomedicine and Life Sciences Engineering Regeneration SciAdv r-articles
title	Reprogramming of three-dimensional microenvironments for in vitro hair follicle induction
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