Morphologic effects of sulfur-substituted fatty acids on rat hepatocytes with special reference to proliferation of peroxisomes and mitochondria.

The morphologic effects of different sulfur-substituted mono- and dicarboxylic fatty acids on rat hepatocytes have been examined. The substance 1,10-biscarboxymethylthiodecane (BCMTD) is blocked for both beta- and omega-oxidation, whereas 1-monocarboxymethylthiodecane (CMTTD) is only non-beta-oxidizable. At equimolar doses BCMTD was considerably more potent than CMTTD in hypertrophic liver enlargement. At the ultrastructural level, BCMTD increased the volume fraction of the peroxisomes by a factor of 8, and their size and number by factors of 2.1 and 6.4, respectively. Furthermore, the frequency of dense cores in the peroxisomes decreased from 60 to 8%. CMTTD resulted in an increased volume fraction of peroxisomes (4.5-fold), in the mean volume (1.9-fold), and in the number of peroxisomes (3.7-fold). At the mitochondrial level, a gradual development toward megamitochondria was observed after CMTTD administration. BCMTD, however, increased the number of mitochondria but they tended to be smaller. Administration of both acids increased peroxisomal beta-oxidation and mitochondrial carnitine palmitoyltransferase activity, whereas the lipid content of hepatocytes was reduced with increasing doses of CMTTD and especially BCMTD. The acid 1-mono(carboxyethylthio)tetradecane (CETTD), which is able to undergo one cycle of beta-oxidation, caused no change in liver weight, and only marginal effects on peroxisomes and mitochondria were observed. In contrast to the BCMTD and CMTTD feeding, the animals developed a tremendous accumulation of fat in the livers: the volume fraction of lipid droplets increased 23-fold after CETTD feeding.