Effects of extracellular matrix on the expression of peroxisomes in primary rat hepatocyte cultures

BACKGROUND/AIMS: Peroxisomes in wild-type cells vary between tissues and developmental stages. In the liver of some peroxisomal deficiency disorder patients, rare parenchymal cells express normal peroxisomes (mosaics); the mechanism is unknown. Our aim was to find factors regulating peroxisome expression. METHODS: Liver-specific as well as peroxisome characteristics were studied in three types of primary rat hepatocyte cultures. RESULTS: Total glutathione S-transferase activity and albumin secretion both increased in the collagen I sandwich and immobilization gel cultures. In contrast, in monolayers cultured on plastic, total glutathione S-transferase activity decreased and albumin secretion was only 30-40% compared to the collagen cultures. Glycogen rosettes typical of liver parenchymal cells were always abundant. Laminin and collagen IV-producing stellate cells were numerous in the monolayer but almost absent in the sandwich cultures. In 6-day-monolayer cultures, the number of liver-specific peroxisomes had decreased while atypical small or elongated peroxisomes appeared. Immunolabeling density for catalase and three beta-oxidation enzymes was decreased compared to adult rat liver; catalase specific activity in homogenates had dropped to 15% and 4% in the sandwich and monolayer cultures, respectively. In 17-day-sandwich cultures, some peroxisomes showed a very weak catalase reaction; total activity was 5%. Supplementation of the collagen type I cultures with several extracellular matrix factors could not prevent peroxisome dedifferentiation. CONCLUSION: The presence of these extracellular matrix components is not sufficient for normal peroxisome expression. It is suggested that hepatocyte-specific and peroxisomal features are regulated differently. The sandwich preserves hepatocyte differentiation better than the monolayer.