Abstract
Incorporation of 14 C from U-14 C-glucose into fatty acids and CO2 by epididymal fat was studied in vitro. Simultaneous measurements of glycerol and
free fatty acid (FFA) production were also made. Induction of diabetes with streptozotocin
(50 mg/kg iv.) markedly inhibited fatty acid synthesis and increased glycerol and
FFA production. Total adipose tissue mass was grossly reduced. Hypophysectomy of the
diabetic animals reversed these changes. Oxidation of glucose to 14 CO2 was only slightly affected by any of the procedures. Three hrs. after administration,
growth hormone (100/µg/rat) inhibited glucose oxidation and fatty acid synthesis in
both hypophysectomized and hypophysectomized-diabetic animals. Similarly, when added
in vitro to adipose tissue of hypophysectomized-diabetic rats, growth hormone (1 µg/ml)
increased the oxidation of glucose and the incorporation of its carbons into fatty
acids. These observations are consonant with the suggestion that both the early, insulin-like
and the late, anti-insulin-like effects of growth hormone may be independent of endogenous
insulin. The data also indicate that in isolated adipose tissue as in whole animals,
the metabolic effects of insulin deficiency can be reversed by hypophysectomy.
Key words
Streptozotocin-Diabetes - Hypophysectomy - Growth Hormone - Glucose Oxidation - Lipolysis
