Biogenesis of peroxisomes: sequential biosynthesis of the membrane and matrix proteins in the course of hepatic regeneration.

The biogenesis of peroxisomes was investigated in the model of regenerating rat liver after partial hepatectomy (PH), using analytical differential centrifugation in combination with immunoblotting and in vivo pulse labeling as well as immunoelectron microscopy. The total activity of catalase decreased sharply after PH, returning gradually over several days to normal levels. In the 16 to 32-h period the enzyme activity started to increase first in the heavy mitochondrial fraction, shifting at 28 h to the crude peroxisomal and at 32 h to the microsomal fraction, suggesting de novo formation of peroxisomes by budding or fragmentation from larger aggregates. Whereas most peroxisomal matrix proteins were reduced during the 16 to 32-h period after PH, the 26 and 70 kDa peroxisomal membrane proteins were increased. Moreover, in vivo pulse labeling studies with radioactive leucine showed significantly higher levels of specific activity in the peroxisomal membrane than in the matrix subfractions at 16 h with increasing labeling of the matrix at 32 h after PH. These findings suggest that de novo formation of peroxisomes in regenerating rat liver is initiated by the synthesis of membrane proteins and is followed by that of the matrix components.