Keratin 13 deficiency causes white sponge nevus in mice

White sponge nevus (WSN) is a benign autosomal dominant disorder characterized by the formation of white spongy plaques in the oral mucosa. Keratin (KRT) 13 is highly expressed in the mucosa, and mutations in this gene have been commonly associated with WSN patients. However, it remains unknown whet...

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Veröffentlicht in:Developmental biology 2020-12, Vol.468 (1-2), p.146-153
Hauptverfasser: Simonson, Laura, Vold, Samantha, Mowers, Colton, Massey, Randall J., Ong, Irene M., Longley, B. Jack, Chang, Hao
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Sprache:eng
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Zusammenfassung:White sponge nevus (WSN) is a benign autosomal dominant disorder characterized by the formation of white spongy plaques in the oral mucosa. Keratin (KRT) 13 is highly expressed in the mucosa, and mutations in this gene have been commonly associated with WSN patients. However, it remains unknown whether there is a causal relationship between KRT13 mutations and WSN and what the underlying mechanisms might be. Here, we use mouse genetic models to demonstrate that Krt13 is crucial for the maintenance of epithelial integrity. Krt13 knockout mice show a WSN-like phenotype in several tissues, including the tongue, buccal mucosa, and esophagus. Transcriptome analyses uncover that Krt13 regulates a cohort of gene networks in tongue epithelial cells, including epithelial differentiation, immune responses, stress-activated kinase signaling, and metabolic processes. We also provide evidence that epithelial cells without Krt13 are susceptible to mechanical stresses experienced during postnatal life, resulting in unbalanced cell proliferation and differentiation. These data demonstrate that Krt13 is essential for maintaining epithelial homeostasis and loss of Krt13 causes the WSN-like phenotype in mice. •Krt13 is expressed in both progenitor and differentiated cells in the mouse tongue epithelium.•Krt13 knockout leads to disrupted epithelial integrity, which resembles pathological changes seen in human WSN patients.•Cell overproliferation controlled by the Cyclin E family might contribute to the Krt13 knockout phenotype.
ISSN:0012-1606
1095-564X
DOI:10.1016/j.ydbio.2020.07.016