Bone Marrow Stromal Cells, Preadipocytes, and Dermal Fibroblasts Promote Epidermal Regeneration in Their Distinctive Fashions
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Published:2004-10
Issue:10
Volume:15
Page:4647-4657
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ISSN:1059-1524
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Container-title:Molecular Biology of the Cell
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language:en
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Short-container-title:MBoC
Author:
Aoki Shigehisa1, Toda Shuji1, Ando Takashi2, Sugihara Hajime1
Affiliation:
1. Department of Pathology and Biodefence, Faculty of Medicine, Saga University, Saga 849-8501, Japan 2. Department of Internal Medicine, Faculty of Medicine, Saga University, Saga 849-8501, Japan
Abstract
Mesenchymal cell types, under mesenchymal-epithelial interaction, are involved in tissue regeneration. Here we show that bone marrow stromal cells (BMSCs), subcutaneous preadipocytes, and dermal fibroblasts distinctively caused keratinocytes to promote epidermal regeneration, using a skin reconstruction model by their coculture with keratinocytes. Three mesenchymal cell types promoted the survival, growth, and differentiation of keratinocytes, whereas BMSCs and preadipocytes inhibited their apoptosis. BMSCs and preadipocytes induced keratinocytes to reorganize rete ridge- and epidermal ridge-like structures, respectively. Keratinocytes with fibroblasts or BMSCs expressed the greatest amount of interleukin (IL)-1α protein, which is critical for mesenchymal-epithelial cross-talk in skin. Keratinocytes with or without three mesenchymal supports displayed another cross-talk molecule, c-Jun protein. Without direct mesenchymal-epithelial contact, the rete ridge- and epidermal ridge-like structures were not replicated, whereas the other phenomena noted above were. DNA microarray analysis showed that the mesenchymal-epithelial interaction affected various gene expressions of keratinocytes and mesenchymal cell types. Our results suggest that not only skin-localized fibroblasts and preadipocytes but also BMSCs accelerate epidermal regeneration in complexes and that direct contact between keratinocytes and BMSCs or preadipocytes is required for the skin-specific morphogenesis above, through mechanisms that differ from the IL-1α/c-Jun pathway.
Publisher
American Society for Cell Biology (ASCB)
Subject
Cell Biology,Molecular Biology
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