The Effects of Basic Fibroblast Growth Factor(bFGF)on Type I and VII Collagen Gene Expression in Cultured Dermal Fibroblast.
10.5021/ad.1999.11.3.147
- Author:
Young Wook RYOO
;
Dong Won CHOI
;
Kyu Suk LEE
- Publication Type:Original Article
- Keywords:
bFGF;
Type I and VII collagen
- MeSH:
Blotting, Northern;
Cell Proliferation;
Collagen Type I;
Collagen Type VII;
Collagen*;
Cytokines;
Extracellular Matrix;
Fibroblast Growth Factors;
Fibroblasts*;
Gene Expression*;
Homeostasis;
Humans;
Methods;
Muscle, Smooth, Vascular;
RNA, Messenger;
Skin;
Wound Healing
- From:Annals of Dermatology
1999;11(3):147-152
- CountryRepublic of Korea
- Language:English
-
Abstract:
BACKGROUND: bFGF, a member of the fibroblast growth factor family, potently induces vascular smooth muscle cell proliferation and decreased synthesis of the collagens. OBJECTIVE: For further investigation of the effect of bFGF on extracellular matrix homeostasis in the skin, we evaluated the expression of type I and type VII collagen gene at the transcriptional levels. METHOD: We examined that recombinant human bFGF affects the expression of genes involved in ECM synthesis and remodeling in human dermal fibroblasts cultures as judged by Northern blot analysis. RESULTS: The steady state levels of type I and VII collagen gene mRNA were decreased with age dependent pattern up to 0.13 and 0.44 folds respectively. The transcriptional levels of type I collagen mRNA were increased by TGF-B, treatment but markedly decreased by bFGF as well as TNF-a. But there were no synergistic effects bFGF and TNF-a on type I collagen gene expression. The levels of type VII collagen gene expression were increased by both bFGF and TGF-B,. The TNF-a showed slightly antagnostic effects on type VII collagen gene expression. CONCLUSION: The type I and VII collagen gene expression in dermal fibroblasts is clearly subjected to modulation by the cytokines including bFGF with uncoordinate regulatory pathway. In addition to its function of vascular proliferation, bFGF also may play a major role in physiologic skin condition and in repair process such as formation of a stable dermoepidermal junction during skin wound healing.
