Early human fetuses regenerate cutaneous wounds perfectly without scarring. However, transforming growth factor-beta1 (TGF-beta1), the cytokine linked with scarring in mature tissue, is also present during fetal wound repair, albeit transiently. We present a comparison of response to TGF-beta1 by fibroblasts derived from early human fetal skin (non-scarring) and their mature (scarring) postnatal counterparts, which revealed that although fetal fibroblasts do indeed differentiate into myofibroblasts, this response is altogether more rapid and short-lived. Fetal fibroblasts also failed to exhibit the TGF-beta1-induced increase in collagen (mRNA and protein) demonstrated by their postnatal counterparts. Fetal cells exhibited a comparatively short-lived or rapid phosphorylation of several components of the TGF-beta1 signaling pathways: Smad2/3 and c-Jun N-terminal kinase. Unlike quiescent postnatal fibroblasts, quiescent fetal fibroblasts also phosphorylated extracellular signal-regulated kinases in response to TGF-beta1. These altered responses to TGF-beta1 may well contribute to the transition between perfect regeneration and scar formation seen during development.
Failure of apoptosis has been postulated to cause the hypercellularity and thus excess scar-tissue formation of hypertrophic scars (HTS). Here, we have examined the susceptibility of fibroblasts derived from normal or HTS to apoptosis induced during collagen-gel contraction, a wound-healing model. Normal scar (NS) fibroblasts underwent significant apoptosis (>40% total) in contractile collagen, whereas apoptosis was not detected in HTS cells. This inability was specific to apoptosis induced by contractile collagen because apoptosis could be induced using diverse modalities. Since chronic fibrotic tissue is known to be excessively cross-linked, we next examined whether collagen matrix that had been conditioned by HTS fibroblasts became refractory to enzymatic breakdown and indeed, found that it is resistant to breakdown by both collagenase D and matrix metalloproteinase-2. Newly formed extracellular matrix is stabilized by the enzyme, tissue transglutaminase, which we demonstrated to be overexpressed by HTS fibroblasts in vivo and in vitro. Reducing tissue transglutaminase activity in collagen gels containing HTS fibroblasts permitted induction of apoptosis on gel contraction, whereas increasing enzymic activity in NS cell-containing gels completely abrogated collagen-contraction-induced-apoptosis. Together, these observations show that HTS fibroblasts exhibit resistance to a specific form of apoptosis elicited by contraction of collagen gels, and that this phenomenon is dependent on excess activity of cell surface tissue transglutaminase.
Background: It has been well established that human fetuses will heal cutaneous wounds with perfect regeneration. Insulin-like growth factors are pro-fibrotic fibroblast mitogens that have important roles in both adult wound healing and during development, although their relative contribution towards fetal wound healing is currently unknown. We have compared responses to IGF-I and -II in human dermal fibroblast strains derived from early gestational age fetal (<14 weeks) and developmentally mature postnatal skin to identify any differences that might relate to their respective wound healing responses of regeneration or fibrosis.
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