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Abstract
Lipoprotein lipase and hepatic lipase are involved in the degradation and cellular uptake of lipids in peripheral tissues and the liver. These enzymes seem to be influenced by gonadal steroids in the rat as well as in man. Since gonadal steroids have been shown to influence the secretory pattern of GH and since the effect of gonadal steroids on several metabolic functions may be dependent upon their effects on GH secretion, the present study was undertaken to investigate the developmental regulation of heparin-releasable lipoprotein lipase and hepatic lipase activities in female and male rats, and to study the effects of gonadal steroids and different modes of GH administration to hypophysectomized rats on these enzyme activities. Female and male Sprague–Dawley rats from 20 to 65 days of age were studied. Hypophysectomy was performed at 50 days of age and these rats were given replacement therapy with thyroxine and cortisone. Groups of hypophysectomized rats were treated with either oestradiol valerate (0·1 mg/kg per day) or testosterone enanthate (1 mg/kg per day). Bovine GH (1 mg/kg per day) was given to groups of hypophysectomized rats either by two daily subcutaneous injections or by continuous infusion using osmotic minipumps. Hormone treatment was given for 1 week. Lipoprotein lipase and hepatic lipase activities were measured in heparinized plasma.
There was no difference in lipoprotein lipase activity between male and female rats at 20 to 45 days of age. Lipoprotein lipase activity decreased between 45 and 65 days of age in male rats but not in females and, at 65 days of age, lipoprotein lipase activity was higher in females compared with males. Hepatic lipase activity increased from 20 to 45 days of age in both female and male rats but at 45 and 65 days of age it was higher in female than in male rats. Hypophysectomy decreased lipoprotein lipase and hepatic lipase activity in female rats. Neither oestradiol nor testosterone treatment had any effects in hypophysectomized rats. Treatment with bovine GH increased both lipoprotein lipase and hepatic lipase activities irrespective of its mode of administration and these effects were not influenced by additional treatment with oestradiol or testosterone. After the last injection of GH, lipoprotein lipase activity was increased for 12 h. Hepatic lipase activity was increased at 2 and 4 h after the last GH injection but after 12 h the activity had decreased, indicating that the time-course for the effects of GH on lipoprotein lipase and hepatic lipase may be different.
It is concluded that GH markedly influences post-heparin lipoprotein lipase and hepatic lipase activities. The lack of effects of gonadal steroids on these activities in hypophysectomized rats suggests that the gonadal steroids influence these lipases via their influence on GH release.
Journal of Endocrinology (1994) 140, 203–209
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Changes in GH secretion are associated with changes in serum lipoproteins, utilisation of fuels and body composition. Since lipoprotein lipase (LPL) is a key enzyme in the regulation of lipid and lipoprotein metabolism, changes in LPL activity may contribute to these effects of GH. The present study was undertaken to investigate the role of GH and the GH-dependent growth factor, IGF-I, in the regulation of LPL in heart, skeletal muscle and adipose tissue. Female rats were hypophysectomised at 50 days of age. One week later, hormonal therapy was commenced. All hypophysectomised rats received l-thyroxine and cortisol. Adipose tissue, the heart, soleus and gastrocnemius muscles were excised after 1 week of hormonal therapy. The effect of insulin injections on adipose tissue and heart LPL activity was also studied. In separate experiments, LPL activity in post-heparin plasma was measured.Hypophysectomy had no effect on adipose tissue LPL activity, whereas activity was reduced in heart, soleus and gastrocnemius muscle tissues. GH treatment had no significant effect on LPL activity in adipose tissue or soleus muscle, but increased the LPL activity in heart and gastrocnemius muscle. GH treatment increased post-heparin plasma LPL activity. Recombinant human IGF-I treatment (1.25 mg/kg per day) markedly reduced LPL activity in adipose tissue, but had no effect in muscle tissues. The effect of IGF-I treatment on adipose tissue LPL was not reflected by a decrease in post-heparin plasma LPL activity. Daily injections of insulin for 7 days increased LPL activity in adipose tissue but had no effect on heart LPL activity. In adipose tissue, LPL mRNA levels tended to decrease as a result of IGF-I treatment. In the muscle tissues, no significant effects of hypophysectomy, GH or IGF-I treatment on LPL mRNA levels were observed.%It is concluded that GH increases heart and skeletal muscle tissue LPL activity, which probably contributes to an increased post-heparin plasma LPL activity. The effect of GH on muscle LPL activity is probably not mediated by IGF-I or insulin. Insulin and IGF-I have opposite effects on LPL activity in adipose tissue.