Slug Regulates Integrin Expression and Cell Proliferation in Human Epidermal Keratinocytes

The human epidermis is a self-renewing epithelial tissue composed of several layers of keratinocytes. Within the epidermis there exists a complex array of cell adhesion structures, and many of the cellular events within the epidermis (differentiation, proliferation, and migration) require that these...

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Bibliographic Details
Published in:The Journal of biological chemistry 2006-07, Vol.281 (30), p.21321-21331
Main Authors: Turner, Frances E., Broad, Simon, Khanim, Farhat L., Jeanes, Alexa, Talma, Sonia, Hughes, Sharon, Tselepis, Chris, Hotchin, Neil A.
Format: Article
Language:English
Subjects:
Base Sequence
Cadherins - biosynthesis
Cell Adhesion
Cell Adhesion Molecules - biosynthesis
Cell Differentiation
Cell Proliferation
Enzyme Activation
Epidermal Cells
Humans
Integrins - biosynthesis
Kalinin
Keratinocytes - cytology
Keratinocytes - metabolism
Molecular Sequence Data
Promoter Regions, Genetic
Snail Family Transcription Factors
Transcription Factors - biosynthesis
Transcription Factors - chemistry
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Summary:The human epidermis is a self-renewing epithelial tissue composed of several layers of keratinocytes. Within the epidermis there exists a complex array of cell adhesion structures, and many of the cellular events within the epidermis (differentiation, proliferation, and migration) require that these adhesion structures be remodeled. The link between cell adhesion, proliferation, and differentiation within the epidermis is well established, and in particular, there is strong evidence to link the process of terminal differentiation to integrin adhesion molecule expression and function. In this paper, we have analyzed the role of a transcriptional repressor called Slug in the regulation of adhesion molecule expression and function in epidermal keratinocytes. We report that activation of Slug, which is expressed predominantly in the basal layer of the epidermis, results in down-regulation of a number of cell adhesion molecules, including E-cadherin, and several integrins, including α3, β1, and β4. We demonstrate that Slug binds to the α3 promoter and that repression of α3 transcription by Slug is dependent on an E-box sequence within the promoter. This reduction in integrin expression is reflected in decreased cell adhesion to fibronectin and laminin-5. Despite the reduction in integrin expression and function, we do not observe any increase in differentiation. We do, however, find that activation of Slug results in a significant reduction in keratinocyte proliferation.
ISSN:0021-9258
1083-351X
DOI:10.1074/jbc.M509731200