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Journal Article
Research Support, N.I.H., Extramural
Research Support, Non-U.S. Gov't
Research Support, U.S. Gov't, P.H.S.
Hypertrophic scar fibroblasts have increased connective tissue growth factor expression after transforming growth factor-beta stimulation.
Plastic and Reconstructive Surgery 2005 October
BACKGROUND: Hypertrophic scars and keloids respond to dermal disruption with excessive collagen deposition and increased transforming growth factor (TFG)-beta expression. Connective tissue growth factor (CTGF) is a downstream mediator of TGF-beta activity that is associated with scar and fibrosis. The authors hypothesize that there is increased expression of CTGF by hypertrophic scar and keloid fibroblasts in response to TGF-beta stimulation.
METHODS: Primary fibroblasts were isolated in culture from human hypertrophic scar (n = 2), keloid (n = 2), and normal skin (n = 2). After 18 hours of serum starvation, the cells were stimulated with 10 ng/ml of TGF-beta1, TGF-beta2, and TGF-beta3 for 24 hours. Quantitative real-time polymerase chain reaction was performed on extracted RNA samples to assay for CTGF mRNA expression.
RESULTS: Baseline CTGF expression was increased 20-fold in unstimulated hypertrophic scar fibroblasts and 15-fold in keloid fibroblasts compared with normal fibroblasts. CTGF expression increased greater than 150-fold when stimulated with TGF-beta1 (p < 0.002) and greater than 100-fold when stimulated by TGF-beta2 or TGF-beta3 compared with normal fibroblasts (p < 0.02 and p < 0.002, respectively). CTGF expression was greatest after TGF-beta1 stimulation in hypertrophic scar fibroblasts compared with TGF-beta2 (p < 0.04) and TGF-beta3 (p < 0.02). Keloid fibroblast CTGF expression also increased greater than 100-fold after stimulation with TGF-beta1 (p = 0.16) and greater than 75-fold after addition of TGF-beta2 and TGF-beta3 (p = 0.06 and p = 0.22, respectively).
CONCLUSIONS: Hypertrophic scar fibroblasts have both intrinsic up-regulation of CTGF transcription and an exaggerated capacity for CTGF transcription in response to TGF-beta stimulation. These data suggest that blockage of CTGF activity may reduce pathologic scar formation.
METHODS: Primary fibroblasts were isolated in culture from human hypertrophic scar (n = 2), keloid (n = 2), and normal skin (n = 2). After 18 hours of serum starvation, the cells were stimulated with 10 ng/ml of TGF-beta1, TGF-beta2, and TGF-beta3 for 24 hours. Quantitative real-time polymerase chain reaction was performed on extracted RNA samples to assay for CTGF mRNA expression.
RESULTS: Baseline CTGF expression was increased 20-fold in unstimulated hypertrophic scar fibroblasts and 15-fold in keloid fibroblasts compared with normal fibroblasts. CTGF expression increased greater than 150-fold when stimulated with TGF-beta1 (p < 0.002) and greater than 100-fold when stimulated by TGF-beta2 or TGF-beta3 compared with normal fibroblasts (p < 0.02 and p < 0.002, respectively). CTGF expression was greatest after TGF-beta1 stimulation in hypertrophic scar fibroblasts compared with TGF-beta2 (p < 0.04) and TGF-beta3 (p < 0.02). Keloid fibroblast CTGF expression also increased greater than 100-fold after stimulation with TGF-beta1 (p = 0.16) and greater than 75-fold after addition of TGF-beta2 and TGF-beta3 (p = 0.06 and p = 0.22, respectively).
CONCLUSIONS: Hypertrophic scar fibroblasts have both intrinsic up-regulation of CTGF transcription and an exaggerated capacity for CTGF transcription in response to TGF-beta stimulation. These data suggest that blockage of CTGF activity may reduce pathologic scar formation.
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