PURPOSE: To investigate the effects of gene ablation of epiplakin on the homeostasis of corneal epithelium in mice. METHODS: Light and transmission electron microscopic histology, immunohistochemistry, and real-time RT-PCR were carried out to evaluate the effects of the loss of epiplakin on structure and gene expression of cell-cell adhesion-related components in mice. Integrity against mechanical intervention and wound-healing response of corneal epithelium were also tested. RESULTS: Epiplakin protein was detected in the cells of the basal layer of corneal epithelium. Morphologically basal-like cells were observed in the suprabasal layer of adult epiplakin-null corneal epithelium, suggesting an impaired intraepithelial cell differentiation. Such abnormality was not detected in mice before the age of postnatal day 14. Epiplakin-deficient epithelium exhibits fragility against mechanical intervention as compared with wild-type epithelium. Although cell proliferation is suppressed, migration-dependent wound healing is promoted in epiplakin-null epithelium. E-cadherin expression was suppressed by the loss of epiplakin in the epithelium. CONCLUSIONS: Lacking epiplakin affects cell differentiation of the corneal epithelium, as well as its proliferation activity and its structural integrity. The mechanism of acceleration of cell migration in the epiplakin-null corneal epithelium is to be further investigated, although suppression of expression of E-cadherin might be included.
PURPOSE: To investigate the effects of gene ablation of epiplakin on the homeostasis of corneal epithelium in mice. METHODS: Light and transmission electron microscopic histology, immunohistochemistry, and real-time RT-PCR were carried out to evaluate the effects of the loss of epiplakin on structure and gene expression of cell-cell adhesion-related components in mice. Integrity against mechanical intervention and wound-healing response of corneal epithelium were also tested. RESULTS:Epiplakin protein was detected in the cells of the basal layer of corneal epithelium. Morphologically basal-like cells were observed in the suprabasal layer of adult epiplakin-null corneal epithelium, suggesting an impaired intraepithelial cell differentiation. Such abnormality was not detected in mice before the age of postnatal day 14. Epiplakin-deficient epithelium exhibits fragility against mechanical intervention as compared with wild-type epithelium. Although cell proliferation is suppressed, migration-dependent wound healing is promoted in epiplakin-null epithelium. E-cadherin expression was suppressed by the loss of epiplakin in the epithelium. CONCLUSIONS: Lacking epiplakin affects cell differentiation of the corneal epithelium, as well as its proliferation activity and its structural integrity. The mechanism of acceleration of cell migration in the epiplakin-null corneal epithelium is to be further investigated, although suppression of expression of E-cadherin might be included.
Authors: Sandra Szabo; Karl L Wögenstein; Christoph H Österreicher; Nurdan Guldiken; Yu Chen; Carina Doler; Gerhard Wiche; Peter Boor; Johannes Haybaeck; Pavel Strnad; Peter Fuchs Journal: J Hepatol Date: 2015-01-21 Impact factor: 25.083
Authors: Karl L Wögenstein; Sandra Szabo; Mariia Lunova; Gerhard Wiche; Johannes Haybaeck; Pavel Strnad; Peter Boor; Martin Wagner; Peter Fuchs Journal: PLoS One Date: 2014-09-18 Impact factor: 3.240
Authors: Mariam Lofty Khaled; Yelena Bykhovskaya; Sarah E R Yablonski; Hanzhou Li; Michelle D Drewry; Inas F Aboobakar; Amy Estes; X Raymond Gao; W Daniel Stamer; Hongyan Xu; R Rand Allingham; Michael A Hauser; Yaron S Rabinowitz; Yutao Liu Journal: Invest Ophthalmol Vis Sci Date: 2018-06-01 Impact factor: 4.799
Authors: Danielle G May; Laura Martin-Sancho; Valesca Anschau; Sophie Liu; Rachel J Chrisopulos; Kelsey L Scott; Charles T Halfmann; Ramon Díaz Peña; Dexter Pratt; Alexandre R Campos; Kyle J Roux Journal: Viruses Date: 2022-03-15 Impact factor: 5.048