Stimulation of the collagen alpha 1 (I) endogenous gene and transgene in carbon tetrachloride-induced hepatic fibrosis.

Cirrhosis is characterized by a marked increase in the deposition of type I collagen and in the expression of the type I collagen genes alpha 1(I) and alpha 2(I). Although alpha 1(I) gene regulation has been extensively studied in cultured cells, these results may not be applicable to hepatic fibrogenesis in vivo. Therefore the regulation of the alpha 1(I) endogenous gene and an alpha 1(I) transgene was studied in a transgenic mouse model that has a single copy of a human alpha 1(I) gene segment containing the structural gene and 1.6 Kb of 5' DNA and 20 Kb of 3' DNA. To initiate hepatic fibrogenesis, we treated mice with the hepatotoxin carbon tetrachloride, either in a single dose or in biweekly doses for a period of 3 to 8 wk. Subsequently, hepatic alpha 1(I) messenger RNA levels were determined by a species-specific RNase protection assay. Carbon tetrachloride injections coordinately increased the messenger RNA levels of the alpha 1(I) endogenous gene and the transgene, both immediately and after 8 wk. These experiments demonstrate that this alpha 1(I) transgene fragment contains information sufficient for appropriate basal and carbon tetrachloride-stimulated hepatic expression. They further demonstrate that sufficient homology exists between the human and mouse regulatory elements for the recognition of human cis-acting elements by mouse trans-acting factors. Thus transgenic mice provide a unique model in which to characterize the collagen alpha 1(I) regulatory elements that are required in vivo for pathophysiological responses.