Steps of glucocorticoid action in normal and diabetic rat placenta.

This investigation examined the effects of Streptozotocin diabetes in pregnancy on several parameters of glucocorticoid action in the rat placenta. Pregnant diabetic rats showed reduced body weight, increased adrenal weight and serum corticosterone concentrations. Glucocorticoid receptors in placental cytosol of labyrinthine zone, measured in the absence of MoO4Na2 were similar in control and diabetic rats, but after addition of MoO4Na2 receptor number were moderately, but significantly reduced in diabetic placentas (P less than 0.01). No changes in affinity were detected in saturation analysis. Furthermore, transformation of the receptor assessed by its capacity for binding to DNA-cellulose, was enhanced in diabetic animals, suggesting increased efficiency of the receptor-bound hormone. Since the function of the glucocorticoid receptor of rat placenta may be the inhibition of local progesterone production (Heller and De Nicola, J. steroid Biochem. 19 (1983) 1339-1343), we determined progesterone synthesis in vitro and found that diabetic placentas synthesized significantly less progesterone than control tissue (P less than 0.05). Lastly, we found that the metabolism of corticosterone to 11-dehydrocorticosterone, while declining in control placentas as pregnancy advanced, it was sustained in diabetic pregnancy. It is suggested that diabetic rat placentas showed increased activity towards the glucocorticoid receptor, resulting in reduction in progesterone synthesis and sustained catabolism of corticosterone. The latter may possibly constitute a compensatory mechanism to protect the fetal compartment from high levels of maternal glucocorticoids.

Binding of steroids in nuclear extracts and cytosol of rat pituitary and estrogen-induced pituitary tumors.

We have determined binding sites for estrogen, progestin, androgen and glucocorticoid in anterior pituitaries from Sprague-Dawley rats, a strain with low estrogen sensitivity, and in diethylstilbestrol-induced pituitary tumors in Fischer 344 rats, a strain with high estrogen sensitivity. Binding sites differ in their quantity and subcellular distribution. Cytosolic sites for [3H]estradiol in normal pituitaries from untreated rats were high prevailing over sites for other hormones, but they were depleted in the tumors due to their retention in nuclei under the influence of estrogen. Unoccupied nuclear sites for estrogen in normal glands also prevailed over sites for other steroids, and were similar to those in tumors. Second, the progestin site labeled with [3H]R 5020 was concentrated 5.7-fold in cytosol and 8.5-fold in nuclei of the tumors over the values found in glands from normal males estrogenized for 3 days. Third, glucocorticoid receptors labeled with [3H]dexamethasone were predominantly cytosolic in normal glands, but very low in cytosol and more evident in nuclear extracts from the tumors, the reverse of the profile found in normal pituitaries. Last, limited and comparable amounts of androgen receptors were measured in the subcellular fractions of both tissues. It is suggested that the subcellular distribution of some steroid receptors may be controlled in part by the cell population of the tissue and its degree of genetic activity.

Neuroendocrine changes in female rats born from streptozotocin-diabetic mothers.

In adult female rats born from Streptozotocin-diabetic mothers, blood glucose measured under basal conditions or 30 min after glucose administration was similar to controls; however at 180 min 50% of offspring from diabetics was moderately hyperglycemic whereas 100% of controls were normoglycemic. The time of vaginal opening, and after maturity, the number of rats with regular estrous cycles was in the range of controls. After ovariectomy, control rats receiving estradiol showed a sharp increase of serum LH at 4 pm following progesterone treatment at 10 am, while rats born from diabetic mothers failed to modify serum LH. Estradiol receptors in cell nuclei and cytosolic progestin receptors were determined in anterior pituitary, hypothalamus and preoptic area of rats subjected to a 4-day estradiol treatment. Changes were statistically significant in the hypothalamus only, in that rats born from diabetic mothers showed reduced induction of progestin receptors coupled to increased binding of (3H)-estradiol in cell nuclei. These findings bring support for a hypothalamic defect in rats born from diabetic mothers, the reduction of hypothalamic progestin receptors being reflected in the reduced sensitivity to the positive feedback action of progesterone to release LH.