The Long-Evans Cinnamon (LEC) rat is a rodent model of Wilson's disease characterized by ceruloplasmin deficiency, hepatic copper accumulation, and hepatocellular injury. So far, the LEC rat appears to be the only strain in which cholangiofibrosis develops spontaneously. The aim of the study reported here was to characterize the time course of development and investigate the structural and ultrastructural features of cholangiofibrosis and their possible relationship to hepatic copper and iron content. The livers of 54 rats (22 males), ages 5 to 113 weeks, were examined by light microscopy and graded for statistical analysis, with respect to extent of replacement of liver tissue by cholangiofibrosis. The study was complemented by electron microscopy, and by measurements of copper and iron contents by atomic absorption spectroscopy. Cholangiofibrosis was present in LEC rats by 20 weeks of age. The hyperplastic biliary epithelial cells varied markedly in size and shape, ranging from flat to cuboidal or elongated. Epithelial cells did not exhibit characteristics of intestinal cells. Some basement membranes had splits, duplications, or multiplications. Cytoplasmic organelles within hyperplastic biliary cells appeared unremarkable in contrast to the characteristic mitochondrial abnormalities present in neighboring hepatocytes. There was a positive correlation between histologic grades of cholangiofibrosis and ages of the animals (r = 0.68, P < 0.001), but no significant correlation between histologic grade and hepatic copper or iron content. We conclude that cholangiofibrosis is the predominant pathologic response to chronic liver injury induced by excess copper in LEC rats. The pathogenic role of copper in the development of cholangiofibrosis requires clearer definition.