Inhibition of progesterone synthesis in placenta by administration of dexamethasone to pregnant rats

Glucocorticoid receptors have been detected in placenta from several species, including the rat, although the biological function of corticoids is unknown in placenta from the latter species. The present experiments examined the effect of glucocorticoid treatment on placental progesterone biosynthesis from endogenous precursors by incubated basal zone trophoblast and labyrinthine zone of placentas from adrenalectomized-ovariectomized rats at the end of pregnancy. It was found that a higher proportion of synthesized progesterone was retained in the tissue than that released into the incubation medium. Treatment of rats on the 17th-18th day of pregnancy with 10 micrograms/ml of dexamethasone in the drinking saline for 3 days, produced a significant inhibition of progesterone detected in tissue and medium of incubated placental zones. In vitro addition of dexamethasone (10(-4) M) was also effective in reducing progesterone in the placental zone studied (LZ). Serum progesterone of intact rats was in the range of rats near parturition (approx 25 ng/ml) and dropped to almost undetectable levels in rats with adrenalectomy and ovariectomy, with or without dexamethasone treatment, suggesting that in late pregnancy the rat placenta does not contribute significantly to circulating levels of progesterone. This glucocorticoid effect could not be extended to estrogens, as we, in accord with the work of other groups, failed to detect estrogen synthesis in rat placenta. It is suggested that a function for glucocorticoid receptors in rat placenta may be the inhibition of local progesterone production.     

Streptozotocin-induced diabetes in the pregnant rat reduces 11 beta-hydroxysteroid dehydrogenase type 2 expression in placenta and fetal kidney

Several epidemiological and animal studies have shown that the offsprings of diabetic mothers have higher incidences of glucose intolerance, obesity, insulin resistance, and hypertension in later life. It is well known that glucocorticoid metabolism plays a crucial role on several adult disease originated from fetal environment. The aim of this study was to investigate the relation between diabetic pregnancy and glucocorticoid metabolism of both mother and fetus, focusing on the 11 beta-hydroxysteroid dehydrogenase (11beta-HSD) type 2. A model of diabetic pregnancy was made by intravenous injection of streptozotocin (35 mg/kg body weight) to Sprague-Dawley rats, and blood and tissue samples were collected on day 20 of pregnancy. In the diabetic group, expression of 11 beta-hydroxysteroid dehydrogenase type 2 in placentas and fetal kidneys was decreased remarkably. Corticosterone levels of diabetic mothers were lower than those of control rats. Despite the differences in maternal corticosterone levels, fetal levels of corticosterone did not differ between the groups. Our results lend support to the concept that diabetic pregnancy imprints glucocorticoid regulation in these fetuses, which may contribute to their increased incidence of higher blood pressure as adults.     

Regulatory factors of glucocorticoid binding in early and term rat placenta

We have measured by an exchange procedure the binding of [3H]dexamethasone in cytosol of early (10-13 days) and late (19-22 days) placentas from pregnant rats. Binding was 3-fold higher in late placentas both in the presence of Na2MoO4. We then studied some possible regulatory factors in order to explain differences in binding at both gestational ages. The activity of enzymes compromising the phosphorylation (acid and alkaline phosphatases) or stability (protease) of the receptor were normal or lower in early as opposed to late placenta, discarding these enzymes as leading regulatory factors. Cyclic nucleotides were also studied, in view that they regulate steroid binding in uterus and placenta. Both basal and epinephrine-stimulated production of cAMP were higher in early placenta. cAMP (but not cGMP) inhibited [3H]dexamethasone binding by reducing the number of sites without changing the Kd. Moreover, addition of epinephrine in concentrations that maximally stimulated cAMP, inhibited subsequent binding of [3H]dexamethasone in cytosol. We suggest that cAMP may be a modulator of glucocorticoid binding at the early stages of placental development. The significance of this mechanism may be understood in terms of the opposing effects of cAMP and glucocorticoids on placental progesterone production.     

Influence of phosphatase inhibitors and nucleotides on [3H]dexamethasone binding in cytosol of human placenta

The purpose of this investigation was to establish the properties of [3H]dexamethasone binding sites in cytosol of human placenta at term. Cytosol containing 20 mM sodium molybdate (MoO4Na2) was incubated for 120 min at 20 degrees C with 40 nM [3H]dexamethasone. The following properties were observed: (a) a single population of binding sites of high affinity and low capacity was measured by Scatchard analysis; (b) potent glucocorticoids such as dexamethasone and cortisol displaced the tritiated ligand, progesterone showed an intermediate activity, whereas cortisone, testosterone and 17 beta-estradiol were ineffective competitors; (c) ultracentrifugation on 16-41% glycerol gradients containing 20 mM MoO4Na2 yielded sedimentation values of 10.25 +/- 0.35 S (n = 4 placentas); (d) the binding sites could be differentiated from the enzyme 11 beta-hydroxysteroid dehydrogenase, as the activity of the former, but not that of the latter, was greatly dependent on the presence of MoO4Na2 in the incubation medium. Inactivation of binding sites labelled with [3H]dexamethasone by incubation at 20 degrees C was prevented by phosphatase inhibitors such as 20 mM MoO4Na2 (P less than 0.01), 20 mM sodium tungstate (WO4Na2) (P less than 0.01) and to a lower extent by 5 mM ATP and cAMP (P less than 0.05). 50 mM NaF, 5 mM GTP or cGMP had no effect. The protection afforded by MoO4Na2 and WO4Na2 was correlated with a significant inhibition of the activity of acid phosphatase, but not alkaline phosphatase. Neither ATP nor cAMP modified phosphatase activity. It is suggested that binding sites for [3H]dexamethasone in cytosol of human placenta showed properties similar to those described for glucocorticoid receptors in target cells, and that these binding sites are regulated by phosphorylation and dephosphorylation mechanisms.     

Maternal diabetes affects cell proliferation in developing rat placenta

Placentation starts with the formation of a spheroidal trophoblastic shell surrounding the embryo, thus facilitating both implantation into the uterine stroma and contact with maternal blood. Although it is known that diabetes increases the placental size and weight, the mechanisms responsible for this alteration are still poorly understood. In mammals, cellular proliferation occurs in parallel to placental development and it is possible that diabetes induces abnormal uncontrolled cell proliferation in the placenta similar to that seen in other organs (e.g. retina). To test this hypothesis, the objective of this work was to determine cell proliferation in different regions of the placenta during its development in a diabetic rat model. Accordingly, diabetes was induced on day 2 of pregnancy in Wistar rats by a single injection of alloxan (40 mg/kg i.v.). Placentas were collected on days 14, 17, and 20 postcoitum. Immunoperoxidase was used to identify Ki67 nuclear antigen in placental sections. The number of proliferating cells was determined in the total placental area as well as in the labyrinth, spongiotrophoblast and giant trophoblast cell regions. During the course of pregnancy, the number of Ki67 positive cells decreased in both control and diabetic rat placentas. However, starting from day 17 of pregnancy, the number of Ki67 positive cells in the labyrinth and spongiotrophoblast regions was higher in diabetic rat placentas as compared to control. The present results demonstrate that placentas from the diabetic rat model have a significantly higher number of proliferating cells in specific regions of the placenta and at defined developmental stages. It is possible that this increased cell proliferation promotes thickness of the placental barrier consequently affecting the normal maternal-fetal exchanges.     

Expression of glucocorticoid receptor and glucose transporter-1 during placental development in the diabetic rat

In various tissues, glucocorticoids (GCs) are known to downregulate glucose transport systems; however, their effects on glucose transporters (GLUTs) in the placenta of a diabetic rat are unknown. Glucocorticoid hormone action within the cell is regulated by the glucocorticoid receptor (GR). Thus, this study was designed to investigate the relationship between GR and glucose transporter expression in the placenta of the diabetic rat. Our immunohistochemical results indicated that GR and glucose transporter protein 1 (GLUT 1) are expressed ubiquitously in the trophoblast and endothelial cells of the labyrinthine zone, where maternal fetal transport takes place in the rat placenta. Expression of GR in the junctional zone of the rat placenta was detected in giant cells, and in some spongiotrophoblast cells, but not in the glycogen cells. GLUT 1 was present, especially in glycogen cells during early pregnancy, and in the spongiotrophoblast cells of the junctional zone during late pregnancy. Amounts of GR and GLUT 1 protein were increased towards the end of gestation both in the control and the diabetic placenta. However, at days 17 and 19 of gestation, only the placental GR protein was significantly increased in the streptozotocin-induced diabetic rats compared to control rats. Diabetes led to a significant decrease in placental weight at gestation day 15. In contrast, at gestational days 17 and 21, the weights of the diabetic placenta were significantly increased as compared with the controls. Moreover, diabetes induced fetus intrauterine growth retardation at gestational days 13, 17 and 21. In conclusion, the localization pattern of GR and GLUT 1 proteins in the same cell types led us to believe that there might be a relationship between GR and GLUT 1 expressions at the cellular level. GLUT 1 does not play a pivotal role in diabetic pregnancies. However, placental growth abnormalities during diabetic pregnancy may be related to the amount of GR.     

Voluntary exercise in pregnant rats positively influences fetal growth without initiating a maternal physiological stress response

The effects of increased physical activity during pregnancy on the health of the offspring in later life are unknown. Research in this field requires an animal model of exercise during pregnancy that is sufficiently strenuous to cause an effect but does not elicit a stress response. Previously, we demonstrated that two models of voluntary exercise in the nonpregnant rat, tower climbing and rising to an erect bipedal stance (squat), cause bone modeling without elevating the stress hormone corticosterone. In this study, these same models were applied to pregnant rats. Gravid Wistar rats were randomly divided into three groups: control, tower climbing, and squat exercise. The rats exercised throughout pregnancy and were killed at day 19. Maternal stress was assessed by fecal corticosterone measurement. Maternal bone and soft tissue responses to exercise were assessed by peripheral quantitative computed tomography and dual-energy X-ray absorptiometry. Maternal weight gain during the first 19 days of pregnancy was less in exercised than in nonexercised pregnant control rats. Fecal corticosterone levels did not differ between the three maternal groups. The fetuses responded to maternal exercise in a uterine position-dependent manner. Mid-uterine horn fetuses from the squat exercise group were heavier (P < 0.0001) and longer (P < 0.0001) and had a greater placental weight (P = 0.001) than those from control rats. Fetuses from tower-climbing dams were longer (P < 0.0001) and had heavier placentas (P = 0.01) than those from control rats, but fetal weight did not differ from controls. These models of voluntary exercise in the rat may be useful for future studies of the effects of exercise during pregnancy on the developmental origins of health and disease.     

Influence of ACTH secreting tumor (MtTF4) on fetal rat adrenal gland steroidogenesis in vitro in prolonged pregnancy

Pregnant female rats with ACTH secreting tumor (MtTF4) have prolonged pregnancy and cannot deliver. The fetuses of tumor bearing females have in prolonged pregnancy on days 24 and 25 of pregnancy greater body weight and smaller adrenal weight as compared to intact fetuses of the 22nd day of pregnancy. The fetal adrenal glands converted to vitro 4-14C progesterone to radioactive 11-deoxycorticosterone (DOC), corticosterone (B), 18-hydroxy-11-deoxycorticosterone (18-OH-DOC), 18-hydroxy-corticosterone (18-OH-B) and aldosterone. Fetal adrenal glands in prolonged pregnancy synthetized in vitro less amount of radioactive DOC, B and 18-OH-DOC. A negative relationship exists between the maternal corticosterone which passes the placenta to fetuses and corticosteroidogenesis of fetal adrenal glands. These results indicate the possibility that fetal rat adrenal glands with their corticosteroids participate in pregnancy and influence normal delivery.     

Cell cycle inhibitor p57 expression in normal and diabetic rat placentas during some stages of pregnancy

Placentomegaly, an abnormal increase in the size of the placenta, is commonly seen in human diabetic pregnancies and diabetic animal experimental models. Proper placental development depends on the proliferation and differentiation of trophoblasts. However, our knowledge about the mitotic regulators that play key roles in synchronizing these events is limited. p57 is a cyclin-dependent kinase (CDK) inhibitor acting in the G1/S transition of the cell cycle. There is no data regarding p57 expression in either rat or human diabetic placentas. The purpose of this study was to investigate p57 expression in control and diabetic rat placentas at different stages of pregnancy. Diabetes was induced by streptozotocin on the first day of pregnancy, and placentas were taken on days 11, 13, 17, and 21 of pregnancy. Our results showed that on day 11, p57 immunostaining intensity was stronger in control group placentas compared to the diabetic group. On day 13, p57 immunostaining intensity increased in both groups, but increased more in the diabetic group. On day 17, p57 immunostaining intensity decreased in both the control and diabetic groups compared to day 13, yet the intensity remained higher in control placentas compared to diabetic placentas. On day 21 of pregnancy, p57 immunostaining intensity increased in the control group and it decreased from the day 17 level in the diabetic group. Western blot results showed consistency with immunohistochemistry results. Our study shows different expression patterns of p57 between control and diabetic rat placentas, which indicate p57 may play a role in abnormal placental formation resulting in placentomegaly arising from diabetes.     

Steroid induction of low-affinity glucocorticoid binding sites in rat liver microsomes

Rat liver contains two glucocorticoid binding sites: the high-affinity or glucocorticoid receptor (GR) and the low-affinity glucocorticoid binding sites, or LAGS. The Kd of LAGS predicts that they can be half-saturated by plasma corticosteroids in some physiological circumstances and, therefore, that they can play relevant roles in the rat liver. [3H]dexamethasone was used as a ligand in exchange assays, to study the relative abundance of GR and LAGS in cell fractions of rat liver. GR were found in the cytosol, but not in the purified nuclei, the mitochondria, or the microsomes. LAGS were found in all the particulate fractions, being more abundant in the smooth-surfaced microsomes, but they were not found in the cytosol. The LAGS of microsomes and purified nuclei showed the same Kd and also the same broad range of steroid competition with [3H]dexamethasone (cortisol = progesterone greater than dexamethasone greater than or equal to corticosterone greater than R5020 greater than DHEA greater than testosterone = estradiol). LAGS were found in liver, placenta and kidney, but not in other GR-containing organs. This suggests that the LAGS could be involved in physiological functions related to the metabolism of steroid hormones. The liver microsome LAGS were undetectable at rat birth, and became present in the 25-day-old rat. The level of LAGS then increased progressively, reaching its maximum level in the 2-3-month-old rats (10 pmol/mg protein), and declining afterwards to reach the adulthood level (5 pmol/mg protein) in 6-month-old rats. LAGS are mainly controlled by the corticoadrenal steroids, which is shown by their dramatic decrease after adrenalectomy, and especially after hypophysectomy. Many steroid hormones, like estradiol, testosterone, and corticosterone (but not progesterone) induce LAGS, estradiol being the most effective. A combination of T4 and corticosterone was more effective in inducing LAGS than when the two hormones were injected separately. It is possible to conclude that rat liver LAGS are mainly microsomal proteins, whose concentration is regulated by a multihormone system under pituitary control.     

Expression and regulation of calcitonin gene-related Peptide receptor in rat placentas

Calcitonin gene-related peptide (CGRP), one of the most potent vasodilators known, exerts its biological action by interacting with its receptors. Recent reports suggest the existence of two types of CGRP receptors, CGRP-A and CGRP-B. The current study was designed to examine whether CGRP-B receptors are present in the rat placenta, and if they are, whether they are modulated by gestational age and by sex-steroid hormones. Placentas were obtained from timed pregnant Sprague-Dawley rats that were killed on Days 17-21 and 22 before and during labor (n = 6 for each gestational age). In addition, placentas were also obtained from pregnant rats injected with progesterone (P(4); 4 mg per rat per day s.c. on Days 20-22), antiprogesterone RU-486 (10 mg/rat s.c. on Day 17), 17beta-estradiol (5 micro g/rat s.c. on Day 17), and antiestrogen ICI 182780 (0.3 micro g/rat s.c. on Day 17). Results showed that first, immunoflourescent staining of rat placentas using monoclonal anti-CGRP-B receptor antibody revealed the presence of CGRP-B receptors in the labyrinthine layer of the placenta, specifically to the trophoblast and blood vessel endothelium and underlying smooth muscle cells. The intensity of staining was lower in placentas obtained during labor. Second, a single band of 66 kDa, reactive to CGRP-B receptor antibody, was obtained in Western blotting of the rat placenta; third, densitometric analysis of protein bands showed that CGRP-B receptors were increased from Day 17 to Day 22, with maximal levels obtained on Day 22 before labor, which was 10 times higher than that of Day 17 (P < 0.01); fourth, expression of CGRP-B receptors in rat placenta decreased during labor (8% vs. 100% on Day 22 before labor, P < 0.01); fifth, P(4) given during Days 20-22 attenuated the fall in placental CGRP-B receptors at term labor; sixth, RU-486 given on Day 17 of gestation significantly decreased expression of placental CGRP-B receptors (18% vs. 100% in controls at 6 h, P < 0.01); seventh, a significant decrease in CGRP-B receptor expression was noted 48 h after estrogen administration; and eighth, ICI 182780 treatment on Day 17 increased placental CGRP-B receptors (152% vs. 100% in control at 48 h, P < 0.01). These results indicate that CGRP-B receptors are present in rat placenta and that receptor levels are higher with gestational age and lower at term labor. Progesterone stimulated and estrogen inhibited placental CGRP-B receptor expression. Thus, elevations in placental CGRP-B receptors in late pregnancy could play a role in increasing blood flow through the fetoplacental unit associated with rapid fetal growth during late gestation.     

Superoxide-forming NADPH oxidase preparation of pig polymorphonuclear leucocyte.

The effect of corticosterone on myofibrillar protein breakdown in diabetic rats was investigated in order to assess the possible counteracting effects of the secondary rise in plasma insulin concentrations which normally accompanies such treatment. N^τ-Methylhistidine excretion, an index of myofibrillar protein breakdown, was compared before and after corticosterone treatment (4.0 mg/100 g body wt. per day) of normal control, adrenalectomized, 10-day-streptozotocin-diabetic and adrenalectomized diabetic rats. Diabetic rats received 1.5 units of insulin/100 g body wt. per day throughout the experiment and showed marked hyperglycaemia and glucosuria during corticosterone treatment, whereas non-diabetic rats had only mild hyperglycaemia but elevated insulin concentrations. Corticosterone treatment increased the average rate of myofibrillar protein breakdown by 68% and 95% respectively in non-diabetic and diabetic rats. Net loss of muscle non-collagen protein for the same 7-day period was greater in diabetic than in non-diabetic animals (4.15 versus 2.84% per day), and the calculated average synthesis rates were lowest in diabetic rats. Adrenalectomy had little effect except to decrease slightly the rate of muscle protein breakdown. These results show that the rise in plasma insulin concentrations that accompanies exogenous corticosterone administration to non-diabetic rats diminishes the catabolic effect of this glucocorticoid on muscle. Insulin appears to antagonize the effects of the glucocorticoid by attenuating the increased rates of myofibrillar protein breakdown and, to a lesser extent, by limiting the decrease in synthesis rates.     

皮质酮对大鼠再生肝细胞转录活性的影响

以AgNOR颗粒数为指标，研究大鼠部分肝切除后，皮质酮对余留肝细胞转录活性的影响。结果显示：部分肝切除后0～24h，各组肝细胞内(假手术、去肾上腺、去肾上腺 皮质酮)AgNOR颗粒数均下降；部分肝切除后36h，假手术鼠的AgNOR数目最多，到48h时已基本恢复到肝切除前水平；在部分肝切除后24～48h，去肾上腺鼠的AgNOR颗粒数持续升高；给去肾上腺鼠再注射剂量分别为10、20、40mg／kg体重的皮质酮，发现在36h和48h时，皮质酮剂量越高，AgNOR颗粒数日越少，且下降幅度越大。部分肝切除前12h给大鼠注射糖皮质激素受体颉颃剂——RU486(10mg／kg体重)，结果与去肾上腺鼠相似。以上结果表明：皮质酮对部分肝切除后肝细胞的转录活性具有明显的抑制作用，而且是通过受体起作用，该作用表现在部分肝切除24h之后。     

Stress-induced changes of glucocorticoid receptor in rat liver.

The effect of corticosterone injection and of acute and repeated stress on rat liver cytosol glucocorticoid receptor was studied to ascertain whether corticosterone-induced glucocorticoid receptor (GR) regulation also takes place in intact animals as it does in adrenalectomized ones. Adult male rats were exposed to six different stressors (swimming, 10 mg/kg histamine i.p., 500 mU/kg vasopressin s.c., heat, immobilization and cold) acutely or three times daily for 18 days (repeated stress). Each of the stressors applied acutely provoked a pronounced increase of plasma corticosterone with subsequent induction of hepatic tyrosine aminotransferase activity. Depletion of cytosol receptor was however only noticed after swimming and histamine injection. On the other hand, sustained hypersecretion of corticosterone evoked by repeated stress significantly reduced the number of GR in rat liver cytosol without any change in Kd. It is concluded that in the presence of intact adrenal glands cytosol receptors are more resistant to corticosterone-induced depletion than in their absence. Further, repeated stress causes down-regulation of GR in the liver, most probably by sustained corticosterone secretion, yet the effect of other stress factors cannot be excluded.     

Changes in protein turnover during gestation in the foetuses,placentas, liver,muscle and whole body of rats given a low-protein diet

(1)Protein synthesis and content have been studied in skeletal muscle, liver, foetuses and placentas of pregnant rats given a protein-deficient diet. Changes which occurred during the anabolic and subsequent catabolic phases of pregnancy are compared with those in well-fed pregnant and in protein-deficient non-pregnant rats. (2) The normal increase in liver protein did not occur during pregnancy in the protein-deficient group. (3) Protein deficiency affected protein content of the placenta earlier and more severely than that of the foetus. (4) Rates of protein synthesis in liver, placentas and foetuses were enhanced above control values by protein deficiency. (5)_Muscle protein increased normally during the anabolic phase of pregnancy but fell during the catabolic phase, unlike values for weel-fed animals. (6) Muscle protein synthesis rates rose by similar amounts in well-fed and protein-deficient animals during the anabolic phase of pregnancy. The fall to starting values during the catabolic phase was sharper and earlier in protein-deficient animals, which could reduce demands on the body amino acid pool by an amount equivalent to over 50% of the needs for protein deposition in foetuses and placentas. Thus, changes in muscle protein synthesis in both anabolic and catabolic phases of pregnancy may afford some protection to foetal protein synthesis.     

Placental changes in rats with streptozotocin diabetes]

Placentas of rats with diabetes mellitus induced by streptozotocin are investigated. Histologically, in the spongiosa zone we find dilated and congested maternal sinus as well as cysts of different size and number. These cysts contain granular eosinophilic material and cytotrophoblastic cells with large amount of glycogen. In our opinion, these cysts are large glycogen islets of the spongiosa zone respectively their remnants. However, similar findings we see in smaller extension in normal rat placentas too. The glycogen content in placentas of diabetic rats is in all localisations higher than in control cases. Comparable histological changes like in diabetic human placenta such as placental disturbances of maturation we don't find in the placental labyrinth of diabetic rats.     

Progesterone concentration and reproduction: An evaluation in pregnant, heat-acclimated, white rats

1. 1.|Progresterone concentrations in peripheral plasma, corpus luteum, uterus and placenta were determined by radioimmunoassay, in pregnant heat-acclimated (HA) and control (C) rats.

2. 2.|Concentration of progesterone in plasma and uterus of HA rats were lower than C from day 5 to 18 and day 5 to mid-gestation respectively.

3. 3.|Number and weight of pups born to HA rats were lower than C by 11.1% and 12.3% respectively.

4. 4.|It is concluded that aberration in pregnancy development observed in HA rats is associated with lower progesterone concentration in plasma and uterus from day of implantation to mid-pregnancy.

Altered placental insulin and insulin-like growth factor-I receptors in diabetes

We have compared the characteristics of IGF-I and insulin receptors in placentas of normals and insulin dependent diabetic patients. Specific binding of both IGF-I and insulin in placental membranes from patients with good glycemic control (as reflected by blood hemoglobin content) was unaltered while that in the placental membranes from the patients with poor glycemic control was increased to approximately 20% of the normals. This observed small but significant (p less than 0.05) increase in binding of IGF-I and insulin to placental membranes from diabetic patients with poor glycemic control was further magnified, approximately twice (p less than 0.001) the normal, when the membrane receptors were purified by lectin chromatography. The kinetic analysis of IGF-I and insulin binding in both membranes and lectin purified receptors revealed that the increased binding of insulin and IGF-I to the placentas from diabetic patients with poor glycemic control was due to an approximately 2 fold increase (p less than 0.001-0.05) in the receptor numbers without any significant changes of the affinities. The molecular characteristics of the receptors in these diabetic patients, as revealed by the cross-linking studies, did not reveal any changes when compared to the normals. The parallel changes of IGF-I and insulin receptors, shown here, are in accordance with the homologous nature of these two receptors. The increased receptor numbers of these two interrelated hormones in placentas of diabetics with poor glycemic control may be relevant to the altered placental functions in diabetic pregnancy.     

Changes in cytosolic and nuclear progesterone receptors during pregnancy in rat placenta

These studies examine changes in placental growth and the abundance of progesterone receptors (Rp) in whole placentas between Days 9 and 22 of pregnancy. In addition, some placentas were dissected into decidual basalis, junctional zone, and labyrinth zone before assay of Rp. High affinity binding of 3H-progesterone to Rp was detected at all stages of pregnancy in whole placentas and in decidua basalis and the junctional zone of the placenta. Cytosolic and nuclear receptors exhibited similar affinity for progesterone in both tissues (Kd = 3.1 +/- 0.3 and 4.4 +/- 0.7 nM, respectively). Receptor binding in whole placentas increased from Day 9 to Day 12 (p less than 0.05), declined markedly at Day 16 (p less than 0.05), and returned to former levels on Days 19 and 22 (p less than 0.05). Decidua basalis contained 84% of total Rp on Day 14, which declined to 67% on Day 17 (p less than 0.05). The junctional zone contained 16% of total Rp on Day 14 and 33% on Day 17. After Day 17, junctional zone was the only source of Rp. The decline in Rp on Day 16 followed regression of decidua basalis; recovery of Rp thereafter was due to growth of the junctional zone. The labyrinth zone did not express significant amounts of Rp at any stage despite a 4-fold increase in growth in late pregnancy. Although the biologic role of the Rp in maintenance of pregnancy is poorly understood, these studies suggest that the maternal decidua basalis and fetal junctional zone are targets of progesterone action.     

Ovarian dysfunction in streptozotocin-induced diabetic rats

The effect of streptozotocin diabetes on some ovarian functions in adult rats was examined. Diabetic diestrus animals showed reduced ovary weight and lower circulating levels of progesterone. Scatchard plots of binding data derived from ovarian particulate fractions of normal and streptozotocin diabetic rats revealed the presence of one class of binding sites with high affinity for 125I-hCG. The apparent association constant of the hCG receptors of diabetic ovaries was comparable to that of normal gonads. However, a marked decrease (42%) in the number of hCG binding sites was found in diabetic animals. With isolated luteal cells similar results were obtained, and the administration of insulin to streptozotocin diabetic rats restored to normality the number of hCG binding sites. The maximal response of progesterone production by luteal cells from control ovaries was obtained with 10(-10) M hCG. A 100-fold higher concentration of hCG was required for the maximum stimulation of cAMP synthesis. The cAMP response of cells from diabetic rats was significantly higher than that of control cells. However, luteal cells from diabetic rats showed some loss of sensitivity in the synthesis of progesterone during incubation with hCG. Most of the alterations seen in diabetic female rats could be restored with insulin therapy, indicating that insulin plays an important role in the regulation and maintenance of normal reproductive functions. It is suggested that the diminution of the LH receptor population causes the disruption of normal luteal cell function. This fact could be responsible for some of the reproductive alterations in the diabetic female rat.