Aging differentially modulates the expression of collagen and collagenase in dermal fibroblasts.

This study was conducted to investigate the effects of aging on collagen and collagenase expression by human dermal fibroblasts. To evaluate this effect, the expression of these ECM was determined and compared between either fetal and adult fibroblasts or dermal fibroblasts at various passages. A total of 13 cell strains, 8 fetal foreskin and 5 adult dermal fibroblasts, were grown to 80-90% confluency and their rates of cell proliferation and expression of mRNA for collagenase (MMP-1) and pro alpha1(I) chain of type I collagen was determined and compared. Fetal cells had a significantly higher rate of proliferation relative to adult fibroblasts evaluated within 10 days of culture. Northern analysis was used to evaluate the steady state levels of mRNA in these cells. The result of these experiments revealed a significantly greater expression of mRNA for collagenase (58.6 +/- 7.7 vs. 9.9 +/- 1.5, p < 0.05) in strains of adult fibroblasts. This was consistent with collagenase activity of conditioned medium derived from adult cells relative to fetal fibroblasts. However the expression of pro alpha1 (I) chain of type I collagen mRNA was not significantly (56.2 +/- 5.2 vs. 58.5 +/- 3.5) different between adult and fetal fibroblasts. This finding was confirmed by measuring total collagen production present in conditioned medium of these cells using hydroxyproline as an index for collagen production. The cellular response to IGF-1 and IFN-alpha2b as representatives of fibrogenic and anti-fibrogenic factors were also evaluated. When expression of collagenase was used as an indication for cellular response, the degree of this response to IGF-1 but not IFN-alpha2b was significantly greater in fetal relative to adult cells. Serial passage was also used as an in vitro model for aging fibroblasts and found a gradual reduction in pro alpha1(I) chain of type I collagen mRNA and hydroxyproline formation due to passaging. In conclusion, a slower rate of proliferation, a greater collagenase activity and expression of collagenase mRNA by aging fibroblasts could be some of the main reasons for attenuation of wound healing in elderly patients.

IFN-alpha2b suppresses the fibrogenic effects of insulin-like growth factor-1 in dermal fibroblasts.

The interferon (IFN) proteins, including IFN-alpha2b have been used as antifibrogenic factors to modulate the expression of extracellular matrix (ECM) proteins associated with fibroproliferative disorders in skin. This study was conducted to determine if IFN-alpha2b can counteract the fibrogenic effects of insulin-like growth factor-1 (IGF-1), which is present in large quantity in fibrotic dermis. Human dermal fibroblasts were established in culture and treated with either vehicle (control), 2000 U/ml IFN-alpha2b alone, 100 ng/ml IGF-1 alone, or both IFN-alpha2b and IGF-1. The results showed that treatment with IFN-alpha2b inhibited the proliferation of dermal fibroblasts, reduced the steady-state levels of type I procollagen mRNA in the cells, and reduced the production of collagen as measured by hydroxyproline in conditioned medium. However, this treatment also increased levels of collagenase mRNA in the cells and collagenase activity in the medium. Cells treated with IGF-1 showed increased proliferation and collagen production and decreased collagenase. Cells treated with both IFN-alpha2b and IGF-1 exhibited a 44% reduction in hydroxyproline production (p < 0.05) and a 363% increase in collagenase activity over cells treated with IGF-1 alone (p < 0.01). These results indicate that when IGF-1 and IFN-alpha2b are used individually, they function as fibrogenic and antifibrogenic factors for dermal fibroblasts, respectively, and that fibrogenic effects of IGF-1 on cell proliferation, collagen, and collagenase expression can be counteracted by IFN-alpha2b. These findings support the potential use of IFN-alpha2b as a therapeutic agent for treatment of fibroproliferative disorders, such as postburn hypertrophic scarring.