Single-cell sequencing reveals increased LAMB3-positive basal keratinocytes and ZNF90-positive fibroblasts in autologous cultured epithelium

Autologous cultured epithelium grafting (ACEG) presents a promising treatment for refractory vitiligo, yet concerns regarding infections and immunological reactions hinder its surgical use due to serum and feeder dependencies. Addressing this, we culture autologous epithelium under serum- and feeder...

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Bibliographic Details
Published in:Communications biology 2024-01, Vol.7 (1), p.79-13, Article 79
Main Authors: Lian, Weiling, Zeng, Xuanhao, Li, Jian, Zang, Qing, Liu, Yating, Lv, Haozhen, Chen, Shujun, Huang, Shiyi, Shen, Jiayi, Tang, Luyan, Xu, Yu, Wu, Fuyue, Zhang, Qi, Xu, Jinhua
Format: Article
Language:English
Subjects:
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631/114/2391
631/1647/48
631/532/2438
631/61/2035
631/61/490
Autografts
Biomedical and Life Sciences
Cell adhesion
Cell culture
Down-regulation
Epithelium
Extracellular matrix
Fibroblasts
Homeostasis
Humans
Keratinocytes
Life Sciences
Melanocytes
Safety
Skin
Therapeutic targets
Transcriptomics
Vitiligo
Vitiligo - therapy
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Summary:Autologous cultured epithelium grafting (ACEG) presents a promising treatment for refractory vitiligo, yet concerns regarding infections and immunological reactions hinder its surgical use due to serum and feeder dependencies. Addressing this, we culture autologous epithelium under serum- and feeder-free (SFF) conditions, comparing its safety and efficacy with serum- and feeder-dependent (SFD) conditions in stable vitiligo patients, and we discover no significant differences in repigmentation between the SFF and SFD grafts. Single-cell RNA transcriptomics on SFF- and SFD-cultured epithelium alongside healthy skin reveal increased populations of LAMB3+ basal keratinocytes and ZNF90+ fibroblasts in the SFF sheets. Functional analyses showcase active cellular metabolism in LAMB3+ basal keratinocytes, vital in extracellular matrix homeostasis, while ZNF90+ fibroblasts demonstrate increased differentiation, essential in collagen formation for cell adhesion. Importantly, these cell populations in SFF sheets exhibit enhanced interactions with melanocytes compared to SFD sheets. Further, knockdown experiments of LAMB3 in keratinocytes and ZNF90 in fibroblasts lead to a downregulation in melanocyte ligand-receptor-related genes. Overall, SFF sheets demonstrate comparable efficacy to SFD sheets, offering superior safety. LAMB3+ basal keratinocytes and ZNF90+ fibroblasts act as potential drivers behind repigmentation in ACEG under SFF conditions. This study provides translational insights into ACEG repigmentation and potential therapeutic targets for vitiligo. Autologous serum- and feeder-free cultured epithelium showcases comparable efficacy, increased safety over serum- and feeder-dependent epithelium, revealing the role of LAMB3+ keratinocytes and ZNF90+ fibroblasts in vitiligo.
ISSN:2399-3642
2399-3642
DOI:10.1038/s42003-023-05747-5