Hair follicle epithelial stem cells contribute to interfollicular epidermis during homeostasis
Elnaz Ghotbi, Edem Tchegnon, Ze Yu, Tracey Shipman, Zhiguo Chen, Yumeng Zhang, Renee M. McKay, Chao Xing, Chung-Ping Liao, Lu Q. Le
Elnaz Ghotbi, Edem Tchegnon, Ze Yu, Tracey Shipman, Zhiguo Chen, Yumeng Zhang, Renee M. McKay, Chao Xing, Chung-Ping Liao, Lu Q. Le
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Research Article Cell biology Development

Hair follicle epithelial stem cells contribute to interfollicular epidermis during homeostasis

Abstract

Mammalian skin is a vital barrier with the epidermis serving as its protective outer layer, continually undergoing renewal. Given that loss of the epidermis or its barrier function is lethal for mammals, multiple stem cell populations likely exist for the interfollicular epidermis (IFE), enhancing evolutionary survival. Here, we demonstrate that transcription factor KROX20 marks a heterogeneous stem cell population in the upper and middle mouse hair follicle (HF), partially overlapping with known HF stem cell markers in those regions. Lineage tracing in mice using different reporter lines shows that Krox20-lineage cells migrate from the HF to the IFE, contributing to both basal and suprabasal layers during adulthood. Spatial transcriptomics data corroborate our findings. Depletion of epithelial Krox20-expressing cells leads to epidermal hyperplasia and a disruption of stratification during homeostasis. Our study highlights the contribution of hair follicle Krox20-lineage cells to the IFE and the regulation of epidermal homeostasis.

Authors

Elnaz Ghotbi, Edem Tchegnon, Ze Yu, Tracey Shipman, Zhiguo Chen, Yumeng Zhang, Renee M. McKay, Chao Xing, Chung-Ping Liao, Lu Q. Le

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Figure 7

Krox20 overexpression in vitro alters cell identity.

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Krox20 overexpression in vitro alters cell identity. Overexpression of ...
Overexpression of Krox20 (Krox20-OE) induces morphological changes in HEK293T cells (A) and a less pronounced change in HHFK cells (B). (C) Western blot analysis demonstrates downregulation of apoptotic markers in Krox20-OE cells. The same biological samples were run on a separate gel and probed for KROX20 and GAPDH. (D) qPCR demonstrates that overexpression of Krox20 results in upregulation of EMT regulators (Snail1, Twist1, and Notch1) and downregulation of the epithelial marker E-Cadherin. Results are normalized to GAPDH. n = 3 replicates per condition. Data are shown as mean ± SEM. Two-tailed Student’s t test. *P <0.05. Scale bar: 100 μm.