The association of lysosomal enzymes with nuclei during enzyme induction in rat liver

Abstract

Male rats of the Holtzman strain were fasted for 3 days and refed a diet high in carbohydrate (68.9%). The induction of liver glucose 6-phosphate dehydrogenase and 6-phosphogluconate dehydrogenase was monitored for up to 48 h after refeeding. Induction occurred by 24 h, and by 48 h, 4.2- and 1.5-fold increases were observed for glucose 6-phosphate dehydrogenase and 6-phosphogluconate dehydrogenase, respectively, compared with that of livers of pellet-fed rats. After refeeding, lysosomes increased in fragility as judged by an increased release of acid phosphatase activity during standard homogenization. Fragility was greatest 3 h after refeeding, but normal fragility was observed 24 h after refeeding. Nuclei were isolated from the liver samples before and after refeeding. Those isolated just before refeeding revealed small latent acid phosphatase activity (4–6%). However, after refeeding the carbohydrate-rich diet, a transient and significant ( P < 0.01) increase in the latent activity occurred that was maximal (20%) at 1 h, returning to normal by 24 h. Cross-mixing the 800 g nuclear pellet from livers of animals starved for 3 days with the 800 g supernatant fraction from livers of animals refed the carbohydrate-containing diet did not alter the nuclear lysosomal-free (overt) or latent (detergent-released) enzyme activity. Similarly, mixing the 800 g nuclear pellet from livers of animals refed for 1 h with the 800 g supernatant fraction from livers of animals starved for 3 days, but not refed, did not change the nuclear lysosomalfree or latent enzyme activity. Purified nuclei, further washed in hypotonic buffer, lost acid phosphatase activity, but those isolated from livers of rats refed for 1 h retained 10% of the enzyme latency, whereas all latency was lost from those isolated from uninduced rats. A second lysosomal enzyme, β-galactosidase, became associated with the nuclei with the same temporal pattern as for acid phosphatase. However, no variation in nuclear content of cytosolic lactate dehydrogenase occurred as a result of feeding the high-carbohydrate diet to starved rats. When similarly starved rats were refed a diet high in lipid and carbohydrate-free, no induction of glucose 6-phosphate dehydrogenase and 6-phosphogluconate dehydrogenase was observed. Lysosomes were not temporarily fragile and purified nuclei did not exhibit increased latency of acid phosphatase activity. Though the evidence presented does not establish a direct correlation between lysosome migration to nuclei as a required function in enzyme induction, the temporal and specific nature of the phenomenon support the hypothesis that liver lysosomal enzymes participate in early signals in the induction of enzymes of lipogenesis.