The present study was undertaken to compare plasma lipoprotein lipid composition, as well as white adipose tissue lipoprotein lipase activity, in rats fed purified diets high in either sucrose or corn oil. The experimental diets (65% of calories as sucrose or corn oil, 15% as the opposite nutrient, and 20% as casein) were given ad libitum for 4 weeks. An additional group was fed a nonpurified diet as a reference diet. Both sucrose and oil diets were spontaneously consumed in isocaloric amounts by the animals. Despite energy intakes that were 35% lower than that of the reference group, the sucrose and oil groups exhibited final body weights that were only 6 and 9% lower, respectively, than that of the reference group, and accumulated more fat in the epididymal depots. Postprandial as well as fasting total cholesterol levels were similar in the sucrose and oil groups, while the high-density lipoprotein to total cholesterol ratio was highest in the animals fed corn oil. In both the fasted and fed states, plasma total triglyceride levels were 73% higher in the sucrose group than in the corn oil group. The largest triglyceride differences due to diet were observed in the chylomicron + very-low-density lipoprotein fraction. The oil-fed rats accumulated large amounts of triglycerides in their livers. Postprandial lipoprotein lipase activity in epididymal adipose tissue was almost twice as high in the sucrose group as in the oil group. In the fasting state, but not in the fed state, plasma insulin levels correlated negatively with plasma triglycerides and positively with liver triglyceride content, whereas no relationship was observed between insulin and lipoprotein lipase activity in either fasted or fed animals. From the present findings, it appears that the sucrose-induced hypertriglyceridemia was not partly caused by decreased activity of lipoprotein lipase in white adipose tissue. Finally, this study suggests that the level of circulating insulin following intake of sucrose or corn oil may not determine per se the extent of stimulation of white adipose tissue lipoprotein lipase by these nutrients.
Retroperitoneal white adipose tissue lipoprotein lipase activity is rapidly down-regulated in response to acute stress
