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- Title
Effects of Epidermal Growth Factor and Keratinocyte Growth Factor on the Growth of Oropharyngeal Keratinocytes in Coculture with Autologous Fibroblasts in a Three-Dimensional Matrix.
- Authors
Blaimauer, Karin; Watzinger, Elisabeth; Erovic, Boban M.; Martinek, Helga; Jagersberger, Tamara; Thurnher, Dietmar
- Abstract
Tissue engineering of oropharyngeal mucosa is rendered complex by the fact that oropharyngeal keratinocytes are difficult to culture in the long term and do not grow well after several subcultivations. Three populations of oropharyngeal keratinocytes were isolated by a method based on different levels of β1-integrin expression. In particular, keratinocytes were isolated between cell fractions that adhere rapidly on collagen-IV-coated culture dishes (RAC-IV) and populations that are less adherent (RAC-IV-D). The total fraction of both subpopulations served as a control (RAC-IV-T). The epidermal growth factor (EGF) and the keratinocyte growth factor (KGF) were examined with regard to their effects on the growth of the three populations. Growth curves of all three cell fractions grown with or without EGF were generated, and different concentrations of EGF and KGF were tested. EGF did not change any growth characteristics of the cells, with the exception of the speed of growth. Best growth was achieved with a physiologic EGF concentration of 0.15–1.5 ng/ml and a KGF concentration of 15 ng/ml. Finally, we cocultured oropharyngeal keratinocytes and their autologous fibroblasts in a three-dimensional matrix using Matrigel™. Oropharyngeal keratinocytes grown in coculture formed larger colonies than keratinocytes grown without fibroblasts. In conclusion, we were able to optimize the supplement of EGF and KGF in standard medium for the long-term culture of primary oropharyngeal keratinocytes. The use of Matrigel as a scaffold for three-dimensional cocultures of oropharyngeal keratinocytes and fibroblasts might signify a step forward in the development of a transplantable mucosa construct. Copyright © 2006 S. Karger AG, Basel
- Subjects
KERATINOCYTES; COLLAGEN; EPIDERMAL growth factor; CELL fractionation; PHYSIOLOGY; FIBROBLASTS; MUCOUS membranes
- Publication
Cells Tissues Organs, 2006, Vol 182, Issue 2, p98
- ISSN
1422-6405
- Publication type
Article
- DOI
10.1159/000093064