Expression of keratins K12, K4 and K14 during development of ocular surface epithelium

Kurpakus, Michelle A.; Maniaci, M.; Esco, Miechia A.

doi:10.3109/02713689409025135

Cited by 116 publications

(86 citation statements)

References 24 publications

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“…Thus, the expression of K12 mRNA and protein using three independent means of detection indicate that these cells retain features that are characteristic of corneal epithelial cells. K12 staining was not detected in corneas with reductions in corneal epithelial thickness to one or two cell layers; instead, these cell layers were positive for keratin 4 (K4), a conjunctival epithelium-specific keratin (Kurpakus et al, 1994) (data not shown). Thicker epithelia were negative for K4 staining (data not shown).…”

Section: Resultsmentioning

confidence: 99%

Requirement for Pax6 in corneal morphogenesis: a role in adhesion

Davis

Duncan

Robison

et al. 2003

Journal of Cell Science

134

143

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The Pax6 transcription factor functions early during embryogenesis to control key steps in brain, pancreas, olfactory and ocular system development. A requirement for Pax6 in proper formation of lens, iris and retina is well documented. By examining the corneas of heterozygous Small eye (SEY) mice, this report shows that Pax6 is also necessary for normal corneal morphogenesis. In particular, the epithelial component of the postnatal and adult SEY (+/-) cornea is thinner owing to a reduction in the number of cell layers, despite a tenfold increase in the proliferative index and no change in TUNEL labeling. Ultrastructural views revealed large gaps between corneal epithelial cells and a change in the appearance of desmosomes, suggesting that adhesion abnormalities contribute to the corneal phenotype of SEY (+/-) mice. Western blot analysis and immunofluorescence showed equivalent amounts and normal localization of E-cadherin in SEY (+/-) corneas, and the actin cytoskeleton appeared normal as judged by phalloidin staining. By contrast, the levels of desmoglein, β-catenin and γ-catenin were reduced in the SEY (+/-) cornea. In addition, the amount of keratin-12 mRNA and protein, the major intermediate filament, was reduced in SEY (+/-) corneal epithelium as shown by in situ hybridization and immunohistochemistry. Finally, the SEY (+/-) corneal epithelium adheres less well than wild-type when challenged with gentle rubbing using a microsponge. In conclusion, our results indicate that cellular adhesion is compromised in the SEY (+/-) corneal epithelium and suggests a role for Pax6 in the proper generation and maintenance of the adult cornea.

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Section: Resultsmentioning

confidence: 99%

Requirement for Pax6 in corneal morphogenesis: a role in adhesion

Davis

Duncan

Robison

et al. 2003

Journal of Cell Science

134

143

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“…For example, limbal SCs have the smallest cell size [5], are slow-cycling and hence label-retaining [6], and do not express markers destined for terminal differentiation such as cytokeratins 3 [1] and 12 [7][8][9], involucrin [10], and connexin 43 [11]. In contrast, the SC-containing limbal epithelium has a high proliferative potential in different cultures [12][13][14][15], and their in vitro proliferation is resistant to the inhibition by tumor-promoting phorbol esters [13,16,17].…”

Section: Introductionmentioning

confidence: 99%

Niche regulation of corneal epithelial stem cells at the limbus

et al. 2007

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Among all adult somatic stem cells, those of the corneal epithelium are unique in their exclusive location in a defined limbal structure termed Palisades of Vogt. As a result, surgical engraftment of limbal epithelial stem cells with or without ex vivo expansion has long been practiced to restore sights in patients inflicted with limbal stem cell deficiency. Nevertheless, compared to other stem cell examples, relatively little is known about the limbal niche, which is believed to play a pivotal role in regulating self-renewal and fate decision of limbal epithelial stem cells. This review summarizes relevant literature and formulates several key questions to guide future research into better understanding of the pathogenesis of limbal stem cell deficiency and further improvement of the tissue engineering of the corneal epithelium by focusing on the limbal niche.

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“…Initial differentiation in the epidermis is associated with a switch of cytokeratin expression from the universal stratified epithelial cytokeratin pair, K5 and K14, to K1 and K10, the tissue specific cytokeratins (TSCKs) of the skin (Moll et al, 1983;Cooper et al, 1985;O'Guin et al, 1987). Similarly, in the ocular surface epithelia there is an equivalent cytokeratin switch from the K5/K14 cytokeratins to their TSCKs, K3 and K12 (Schermer et al, 1986), and K4 (Kurpakus et al, 1994) for the cornea and conjunctiva, respectively. The main phenotypic differences with the epidermis occur in the late differentiation stages.…”

Section: Ocular Surface Epithelial Phenotypesmentioning

confidence: 99%

“…In the rabbit cornea, ChaloinDufau et al, (1990) detected the initial expression of K12 and K3 on embryonic (E) days 17 and 21, respectively. In mouse, where only K12 is expressed, Kurpakus et al, (1994) identified initial expression of TSCKs on the corneal zone on E15; K4 was initially expressed on E14 on the conjunctival zone overlying the lid bud (Pei and Rodin, 1970). An intriguing question that has not yet been addressed is whether expression of the universal type cytokeratins K5/K14 precedes the de novo appearance of the TSCKs.…”

Section: Developmental Expression Of Ocular Surface Epithelial Genesmentioning

confidence: 99%