Transformation of sinusoids into capillaries in a rat model of selenium‐induced nodular regenerative hyperplasia: An immunolight and immunoelectron microscopic study

The oral administration of selenium (Se) to young rats induces, over a 2‐month period, the formation of nodular regenerative hyperplasia with sinusoidal damage around nodules. Perinodular areas located in zone 1 comprise atrophic hepatocytes and capillarized sinusoids without fibrosis. We used this unique model of capillarization without fibrosis to investigate the temporal relationship between the process of capillarization and changes occurring in the deposition of components of the edxtracellular matrix. After 2 weeks of intoxication, type III collagen and fibronectin were stable, but laminin and type IV collagen had increased in zone 1, resulting in the formation of septae between portal tracts. Even at 8 weeks, these two components still formed the principal deposits in perinodular zones. Electron microscopy showed already at 1 week in zone 1 that part of the endothelial wall had detached from hepatocytes. Sinusoidal endothelial cells progressively acquired certain of the characteristics of a vascular endothelium, some proliferated, and perisinusoidal cells transformed into myofibroblasts, surrounded by deposits of laminin and type IV collagen. These results indicate that both laminin and type IV collagen are involved in capillarization without fibrosis and in angiogenesis; fibronectin would not seem to play a role.