Selective inhibition of human diploid fibroblast collagen synthesis by interferons.

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Abstract

The effects of alpha- and gamma-interferons (IFNs) on collagen production by confluent human diploid fibroblasts in culture were examined. It was found that partially purified alpha-IFNs and affinity purified gamma-IFNs caused greater than 50% inhibition of collagen synthesis by these cells independently of their effect on cell proliferation. Recombinant alpha-IFNs showed a similar effect (38.8% inhibition), indicating that collagen synthesis inhibition was a constitutive property of IFNs. Collagen synthesis inhibition by IFNs was concentration dependent. Gel filtration chromatography of the newly synthesized proteins from the media of fibroblasts incubated with partially purified alpha-IFNs demonstrated a selective depression of molecules eluting in the region of procollagen. No detectable increase in collagen degradation products or underhydroxylation of procollagen was observed. Short-term kinetic studies further demonstrated that the major effect of IFNs was due to a net decrease in fibroblast collagen production rather than to impairment of secretion or increased extracellular degradation of the newly synthesized molecules. These results indicate that alpha- and gamma-IFNs are potent inhibitors of human fibroblast collagen production and suggest that they may play an important role in the regulation of normal and pathologic fibrogenesis.

Authors

S A Jimenez, B Freundlich, J Rosenbloom