Comparative Spatial Transcriptomic and Single-Cell Analyses of Human Nail Units and Hair Follicles Show Transcriptional Similarities between the Onychodermis and Follicular Dermal Papilla

Comparative Spatial Transcriptomic and Single-Cell Analyses of Human Nail Units and Hair Follicles Show Transcriptional Similarities between the Onychodermis and Follicular Dermal Papilla

The nail unit and hair follicle are both hard keratin-producing organs that share various biological features. In this study, we used digital spatial profiling and single-cell RNA sequencing to define a spatially resolved expression profile of the human nail unit and hair follicle. Our approach show...

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Veröffentlicht in:Journal of investigative dermatology 2022-12, Vol.142 (12), p.3146-3157.e12
Hauptverfasser: Shim, Joonho, Park, Jihye, Abudureyimu, Gulimila, Kim, Min-Hee, Shim, Jong Sup, Jang, Kee-Taek, Kwon, Eun Ji, Jang, Hyung-Suk, Yeo, Eunhye, Lee, Jong Hee, Lee, Dongyoun
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Hair Follicle - metabolism
Humans
Keratins - metabolism
Nails - metabolism
Single-Cell Analysis
Transcriptome
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container_end_page 3157.e12
container_issue 12
container_start_page 3146
container_title Journal of investigative dermatology
container_volume 142
creator Shim, Joonho
Park, Jihye
Abudureyimu, Gulimila
Kim, Min-Hee
Shim, Jong Sup
Jang, Kee-Taek
Kwon, Eun Ji
Jang, Hyung-Suk
Yeo, Eunhye
Lee, Jong Hee
Lee, Dongyoun
description The nail unit and hair follicle are both hard keratin-producing organs that share various biological features. In this study, we used digital spatial profiling and single-cell RNA sequencing to define a spatially resolved expression profile of the human nail unit and hair follicle. Our approach showed the presence of a nail-specific mesenchymal population called onychofibroblasts within the onychodermis. Onychodermis and follicular dermal papilla both expressed Wnt and bone morphogenetic protein signaling molecules. In addition, nail matrix epithelium and hair matrix showed very similar expressions profile, including the expression of hard keratins and HOXC13, a transcriptional regulator of the hair shaft. Integration of single-cell RNA sequencing and digital spatial profiling data through computational deconvolution methods estimated epithelial and mesenchymal cell abundance in the nail- and hair-specific regions of interest and revealed close transcriptional similarity between these major skin appendages. To analyze the function of bone morphogenetic proteins in nail differentiation, we treated cultured human nail matrix keratinocytes with BMP5, which are highly expressed by onychofibroblasts. We observed increased expressions of hard keratin and its regulator genes such as HOXC13. Collectively, our data suggest that onychodermis is the counterpart of dermal papilla and that BMP5 in onychofibroblasts plays a key role in the differentiation of nail matrix keratinocytes.
doi_str_mv 10.1016/j.jid.2022.06.022
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subjects Hair Follicle - metabolism
Humans
Keratins - metabolism
Nails - metabolism
Single-Cell Analysis
Transcriptome
title Comparative Spatial Transcriptomic and Single-Cell Analyses of Human Nail Units and Hair Follicles Show Transcriptional Similarities between the Onychodermis and Follicular Dermal Papilla
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