Decreased basal and acute insulin-stimulated effect on the uptake of glucose and amino acid in vitro by thyroid glands from streptozotocin-diabetic rats

Since experimental diabetes in rats and mice is associated with impairment of several aspects of thyroid function, we determined glucose and amino acid uptake in vitro by isolated thyroid glands from normal and streptozotocin-diabetic rats. Adult male Wistar rats weighing 150-200 g were used. Diabetes was induced by intraperitoneal injection streptozotocin (STZ, 65 mg/kg body weight) and after five days only rats with blood glucose levels higher than 250 mg/dl were used. The thyroid glands were preincubated in Krebs-Ringer bicarbonate buffer in the presence or absence of insulin (0.7 nM to 7 muM) for 90 min and then incubated with the same concentration of the hormone or its vehicle plus 0.2 muCi of [l-l4C]-2-deoxy-D-glucose ([l4C]DG) or [l4C] methylaminoisobutyric acid ([l4C]MeAIB) for 15 to 180 min. The uptake of [l4C]DG or [l4C]MeAIB by the thyroid glands of normal rats increased as a function of incubation time, and the presence of insulin (7 muM) induced a significant increase of labelled DG from 3.30 ñ 0.11 to 4.16 ñ O.12 and of labelled MeAIB from 1.79 ñ 0.06 to 3.10 ñ 0.17 tissue/medium ratio (TIM) after 45 min of incubation. The lowest concentration of insulin that increased both [l4C]DG and [l4C]MeAIB transport was 7 nM. Thyroid glands from STZ rats exhibited lower basal values of [l4C]DG (4.03 ñ 0.11 T/M) or [l4C]MeAIB uptake (1.05 ñ 0.05 T/M) than glands from normal rats (4.62 ñ 0.13 and 1.70 ñ 0.O8 T/M, respectively). Insulin produced a stimulatory effect on the transport of both substrates in STZ rats. However, the maximals stimulating concentration of the hormone did not restore[l4C]DG and [l4C)MeAIB uptake to control values (4.89 + O.17 in STZ rats versus 5.44 ñ 0.17 T/M in controls for [l4C]DG, and 1.51 ñ 0.11 in STZ rats versus 2.19 ñ 0.10 T/M in controls for [l4C]MeAIB). These results indicate that insulin exerts a direct action on the thyroid gland, and its absence or reduction affects thyroid metabolism, contributing, at least in part, to the abnormality in thyroid function associated with diabetes mellitus.

Immunohistochemical localization of insulin-like materials in antral gastric mucosa and intestinal epithelial cells of the turtles Chrysemys dorbigni and Phrynopshilarii

Immunoreactive insulinwas demonstrated immunohistochemically with antibodies to human and porcine insulin by the avidin-biotin-peroxidase complex method in open-type gastrointestinal cells from sections of the antral stomach and of the upper, midle and lower intestine of the turtles Chrysemys dorbigni and Phrynops hilarii.In both species the concentration of cells positive for insulin-like material was higher in the gastric antrummthan in the gut.The localization of insulin-like material in gastrointestinal mucosal cells of turtles is an unusual finding among vertebrates, because the insulin-containing cells migrate from the mucosal epithelium of the intestine early in vertebrate evolution to the acinar pancreas.The chemical nature of the gastrointestinal insulin-like material and its physiological role remainm to be determined