Crucial Effects of Fibroblasts and Keratinocyte Growth Factor on Morphogenesis of Reconstituted Human Oral Epithelium

Overview

Journal J Invest Dermatol

Publisher Elsevier

Specialty Dermatology

Date 2003 Dec 17

PMID 14675199

Citations 28

Authors

Daniela Elena Costea

Lado Lako Loro

Elisabeth Anne Okumo Dimba

Olav Karsten Vintermyr

Anne Christine Johannessen

Affiliations

Soon will be listed here.

Abstract

The connective tissue is known to have a general supportive effect for the development of the overlying epithelium; however, the more specific effects of fibroblasts and the involvement of their product, keratinocyte growth factor, on oral epithelial morphogenesis have not yet been addressed. Therefore, the purpose of this study was to investigate the effects of fibroblasts and keratinocyte growth factor on human oral epithelial morphogenesis in vitro. Reconstituted human oral epithelium was generated from primary human oral keratinocytes and fibroblasts by use of an organotypic cell culture model in a defined medium. Addition of fibroblasts to the collagen biomatrix increased total epithelial thickness from 28.0+/-5.0 microm to 66.1+/-8.6 microm (p=0.028), and basal cell proliferation from 3.6+/-0.7% to 16.6+/-1.1% (p=0.025). Presence of fibroblasts profoundly influenced the pattern of epithelial differentiation, and induced a switch in the pattern of cell death, from a predominance of spontaneous cell death in the basal cell layer (from 4.7+/-0.6% to 1.8+/-0.3%, p=0.029) to a more prevalent cell death due to terminal differentiation in the suprabasal cell layer (from 4.0+/- 0.1% to 5.4+/-0.1%, p=0.034). Keratinocyte growth factor promoted epithelial growth, but did not significantly enhance epithelial differentiation, demonstrating that fibroblasts possess additional mechanisms to keratinocyte growth factor synthesis that can modulate differentiation of reconstituted human oral epithelium.

Citing Articles

In vitro and ex vivo models of the oral mucosa as platforms for the validation of novel drug delivery systems.

Macartney R, Das A, Imaniyyah A, Fricker A, Smith A, Fedele S J Tissue Eng. 2025; 16:20417314241313458.

PMID: 39944725 PMC: 11815840. DOI: 10.1177/20417314241313458.

Three-Dimensional Organotypic Systems for Modelling and Understanding Molecular Regulation of Oral Dentogingival Tissues.

Lu E Int J Mol Sci. 2024; 25(21).

PMID: 39519105 PMC: 11546252. DOI: 10.3390/ijms252111552.

Investigation of biological effects of HEMA in 3D-organotypic co-culture models of normal and malignant oral keratinocytes.

Sharma S, Khan Q, Schreurs O, Sapkota D, Samuelsen J Biomater Investig Dent. 2023; 10(1):2234400.

PMID: 37456807 PMC: 10348043. DOI: 10.1080/26415275.2023.2234400.

Embryonic Stem Cells Can Generate Oral Epithelia under Matrix Instruction.

Das R, Harper L, Kitajima K, Osman T, Cimpan M, Johannssen A Int J Mol Sci. 2023; 24(9).

PMID: 37175400 PMC: 10177836. DOI: 10.3390/ijms24097694.

Autophagy in aging-related oral diseases.

Pena-Oyarzun D, San Martin C, Hernandez-Caceres M, Lavandero S, Morselli E, Budini M Front Endocrinol (Lausanne). 2022; 13:903836.

PMID: 35992149 PMC: 9390882. DOI: 10.3389/fendo.2022.903836.