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Loss of FOXC1 contributes to the corneal epithelial fate switch and pathogenesis.


ABSTRACT: Forkhead box C1 (FOXC1) is required for neural crest and ocular development, and mutations in FOXC1 lead to inherited Axenfeld-Rieger syndrome. Here, we find that FOXC1 and paired box 6 (PAX6) are co-expressed in the human limbus and central corneal epithelium. Deficiency of FOXC1 and alternation in epithelial features occur in patients with corneal ulcers. FOXC1 governs the fate of the corneal epithelium by directly binding to lineage-specific open promoters or enhancers marked by H3K4me2. FOXC1 depletion not only activates the keratinization pathway and reprograms corneal epithelial cells into skin-like epithelial cells, but also disrupts the collagen metabolic process and interferon signaling pathways. Loss of interferon regulatory factor 1 and PAX6 induced by FOXC1 dysfunction is linked to the corneal ulcer. Collectively, our results reveal a FOXC1-mediated regulatory network responsible for corneal epithelial homeostasis and provide a potential therapeutic target for corneal ulcer.

SUBMITTER: Li M 

PROVIDER: S-EPMC7791103 | biostudies-literature | 2021 Jan

REPOSITORIES: biostudies-literature

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Loss of FOXC1 contributes to the corneal epithelial fate switch and pathogenesis.

Li Mingsen M   Zhu Liqiong L   Liu Jiafeng J   Huang Huaxing H   Guo Huizhen H   Wang Li L   Li Lingyu L   Gu Sijie S   Tan Jieying J   Zhong Jing J   Wang Bowen B   Mao Zhen Z   Fan Yong Y   Liu Chunqiao C   Yuan Jin J   Ouyang Hong H  

Signal transduction and targeted therapy 20210108 1


Forkhead box C1 (FOXC1) is required for neural crest and ocular development, and mutations in FOXC1 lead to inherited Axenfeld-Rieger syndrome. Here, we find that FOXC1 and paired box 6 (PAX6) are co-expressed in the human limbus and central corneal epithelium. Deficiency of FOXC1 and alternation in epithelial features occur in patients with corneal ulcers. FOXC1 governs the fate of the corneal epithelium by directly binding to lineage-specific open promoters or enhancers marked by H3K4me2. FOXC  ...[more]

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