Analysis of metopirone-induced hypertrophy of adrenals in fetal rats encephalectomized in utero

Pregnant rats were treated with 30 mg metopirone (M) each day for 2 days and autopsied on the third day in various gestational periods (Days 18-20, 19-21, and 20-22). Control rats were treated with saline alone (S). The adrenals of intact fetuses in M-treated dams were significantly heavier than those of intact fetuses in S-treated dams in every experimental period. In both M- and S-treated dams, the adrenals of encephalectomized (E) fetuses were lighter than those of intact littermates. However, in the experimental period of Days 18-20 and 19-21, the adrenals of E fetuses in M-treated dams were slightly but significantly heavier than those of similar E fetuses in S-treated dams. In contrast, in the experimental period Days 20-22, there was no significant difference in the weight of adrenals of E fetuses of M- and S-treated dams. These changes in fetal adrenal weight were reflected histologically in parallel changes in the size of adrenocortical cells. The observations suggest that the fetal adrenal hypertrophy following maternal treatment with metopirone can occur to some extent independent of the fetal brain, but that close to the end of gestation the hypertrophy occurs completely under the control of the fetal brain.     

Regulation of rabbit fetal glycogen: effect of in utero fetal decapitation on the metabolism of glycogen in fetal heart, lung, and liver

To understand the control mechanisms involved in the regulation of fetal glycogen, we have studied the effect of in utero fetal decapitations on glycogen metabolism in rabbit fetal heart, lung, and liver. In utero fetal decapitations were performed between days 18 and 21 of gestation. Two to four fetuses on one side of the horn were decapitated. Fetuses were delivered between days 23 and 26 or between days 28 and 30 of gestation. Fetal heart, lungs, and liver were analyzed for DNA, protein, glycogen, glycogen synthase (I and D forms), glycogen phosphorylase (a and b forms), phosphofructokinase, pyruvate kinase, and lactic dehydrogenase. In fetal heart and lung, no difference was observed in any of the above measurements in the intact and decapitated fetuses. In contrast, fetal liver does not appear to develop the glycogen system as indicated by the very low levels of glycogen (0.02 mg/mg DNA) in decapitated fetuses as compared with intact fetuses (0.4 mg/mg DNA). Similarly the levels of glycogen synthase and phosphorylase were two to three times lower in livers from decapitated fetuses as compared with the livers from intact fetuses. The three enzymes phosphofructokinase, pyruvate kinase, and lactic dehydrogenase were not affected by fetal decapitation in all three tissues. These results indicate that the fetal hypothalamic-pituitary-adrenal (thyroid) axis is not required at least after day 18 of gestation for the normal accumulation and subsequent utilization of glycogen in fetal heart and lungs, while it is an absolute requirement for the development of the fetal liver glycogen system.(ABSTRACT TRUNCATED AT 250 WORDS)     

Insulin content in the pancreas and blood plasma of decapitated and encephalectomized rat fetuses

Insulin content in the pancreas and blood plasma of encephalectomized, decapitated and intact rat fetuses was measured by radioimmunoassay. Encephalectomy and decapitation of 17.5-day-old fetuses did not produce any significant effect on insulin concentration in the pancreas and blood plasma of 21-day-old fetuses. Injection of glucose to 21-day-old operated fetuses raised insulin secretion, which seems to be related to the potentiating action of maternal and (or) fetal humoral factors. The data obtained indicate that synthesis and basal secretion of insulin to the blood are not disturbed by the lack of the hypothalamohypophyseal control in prenatal rats.     

Effects of Hyperthyroidism on Expression of Vascular Endothelial Growth Factor (VEGF) and Apoptosis in Fetal Adrenal Glands

This study investigated the expression of vascular endothelial growth factor (VEGF), vascular density, and apoptosis in fetal rat adrenal glands with hyperthyroidism in late gestation. Twelve mature female Wistar albino rats with the same biological and physiological features were used for this study. Rats were divided into two groups: control and hyperthyroidism. Hyperthyroidism was induced by daily subcutaneous injections of L-thyroxine (250 µg/kg) before pregnancy for 21 days and during pregnancy. Rats in the control and hyperthyroidism groups were caged according to the number of male rats. Zero day of pregnancy (Day 0) was indicated when the animals were observed to have microscopic sperm in vaginal smears. Pregnant rats were sacrificed on the 20th day of pregnancy; blood from each animal was collected to determine the concentrations of maternal adrenocorticotropic hormone and thyroxine. Rat fetuses were then quickly removed from the uterus, and the adrenal glands of the fetuses were dissected. VEGF expression, vascular density, and apoptosis were analyzed in fetal rat adrenal glands. Maternal serum levels of the ACTH and free thyroxine were significantly higher in the hyperthyroidism group than in the control group. Immunohistochemistry revealed that the number of VEGF positive cells and vessel density significantly increased in the hyperthyroidism rat fetal adrenal group compared with the control group. Hyperthyroidism did not change the fetal and placental weights and the number of fetuses. This study demonstrates that hyperthyroidism may have an effect on the development of rat adrenal glands mediated by VEGF expression, angiogenesis, and apoptosis.     

Influence of endogenous growth hormone-releasing factor (GRF) on the secretion of GH during the perinatal period in the rat

Passive immunization of pregnant rats with a specific antiserum to rat GRF (GRF-AS) is followed by a decrease in fetal serum GH on the 19th day of gestation. A significant reduction in serum GH is still observed in older fetuses and newborn rats. Pituitary GH content increases in 19- and 20-day-old fetuses after GRF-AS administration to their mothers. These results suggest that endogenous fetal hypothalamic GRF (or placenta GRF) play a physiological role in the secretion of pituitary GH as early as the 19th day of fetal life and may be responsible for the peak of GH release that occurs in fetuses at the end of gestation.     

Adrenergic innervation of fetal pig adipose tissue. Histochemical and ultrastructural studies

Histochemistry and electron microscopy were used to study the adrenergic innervation of subcutaneous adipose tissue in fetal pigs. Adrenergic innervation was present around arteries, arterioles, and adipocyte-associated capillaries. Nerve fibers were infrequently observed around veins, venules, and adipocytes. Ultrastructural features of nerves included mitochondria, clear synaptic vesicles, and a small number of vesicles with a core of electron-dense material. Innervation of adipose tissue was similar in 70-, 90-, and 110-day-old fetuses. Examination of fetuses decapitated at 45 days of gestation and removed at 110 days showed that adrenergic innervation was absent in adipose tissue of decapitated fetuses. Adrenergic innervation was also absent in adipose tissue from fetuses hypophysectomized at 72-73 days of gestation and examined at 110 days. These data indicate that fetal porcine adipose tissue may be under neural control by day 70 of gestation. Furthermore, an intact pituitary is necessary for the development of adrenergic innervation in fetal adipose tissue.     

Relationship between fetal adrenal morphology and anterior pituitary function

A comparative study of adrenal morphology between normal fetuses and those with anencephaly or congenital adrenal hyperplasia (CAH) was performed in order to examine the hypothesis that fetal adrenal mass and structure are adrenocorticotrophin (ACTH)-dependent throughout gestation. Combined adrenal weight in 102 normal fetuses was used to establish a reference range for the gestational ages of 15-27 weeks. During this period, mean adrenal weight showed a 6-fold linear increase. In 38 anencephalic fetuses of similar gestation age, adrenal weight was below the normal range and did not show a rise. Three fetuses with CAH (18, 22 and 30 weeks gestation) had adrenal weights considerably above the normal range. Adrenal cortical thickness was significantly increased in CAH fetuses, largely as a consequence of cell hypertrophy, whereas decreased cortical thickness in the anencephalic group represented cellular hypoplasia. Conspicuous secretory granules in the cytoplasm was the electron-micrographic feature of the adrenal gland in the 22-week fetus with CAH. These observations are consistent with close dependency of fetal adrenal growth and development upon fetal pituitary function from an early age, mediated primarily through ACTH.     

Effects of cortisol or corticotropin administration on hepatic 3-hydroxy-3-methylglutaryl-CoA reductase activity and plasma lipids in the pregnant rat and fetuses

Pregnant rats were given pharmacological doses of cortisol or ACTH or no hormone from gestation day 9 to 19 and maternal and fetal hepatic 3-hydroxy-3-methylglutaryl-CoA reductase activity and plasma cholesterol studied on gestation day 20. Reductase activity was also studied in the maternal and fetal adrenal of the rats given cortisol or no hormone. Cortisol administration increased the maternal and fetal plasma cholesterol but had no effect on the hepatic active (phosphorylated) 3-hydroxy-3-methylglutaryl-CoA reductase activity when compared to untreated rats. Total (active + inactive) 3-hydroxy-3-methylglutaryl-CoA reductase activity, however, was reduced in maternal liver but not altered in the fetal liver by cortisol. The maternal cortisol treatment decreased the fetal, but not maternal, adrenal 3-hydroxy-3-methylglutaryl-CoA reductase total enzyme activity. The data support a hypothesis that utilization of plasma cholesterol for adrenal steroidogenesis may be an important determinant of plasma cholesterol homeostasis in the rat fetus. Maternal ACTH administration increased the foetal but not maternal plasma cholesterol, whilst active 3-hydroxy-3-methylglutaryl-CoA reductase activity was increased in the pregnant rat but not her fetuses. This result may suggest coordination of hepatic active reductase activity with adrenal cholesterol utilization in the pregnant rat. The reason for the fetal hypercholesterolaemia caused by ACTH, which is not known to cross the placenta, is uncertain. The studies, however, indicate that fetal cholesterol homeostasis and the rate limiting enzyme of cholesterol synthesis is influenced by maternal glucocorticoid administration.     

Determination of thyroxine and triiodothyronine in the thyroid glands of encephalectomized rat fetuses

Concentration of thyroxin and triiodothyronine in the thyroid gland of encephalectomized and intact fetuses of rats with normal and prolonged gestation period was determined by means of isotope methods. Encephalectomy of 19-day old fetuses did not produce any significant effect on the concentration of thyroid hormones in the gland 2 and 4 days after the operation. The results obtained pointed to the absence of the hypothalamic control over the thyroid function in prenatal development of rats.     

4-14C-progesterone conversion by the fetal rat adrenal gland in vitro.

The adrenal glands of rat fetuses with activated or inhibited pituitary adrenocorticotropic activity between the 15th and 22nd day of intrauterine development were incubated with 4-14C-progesterone for 3hr. Fetuses of intact mothers were used as controls. Conversion of progesterone into adrenal steroids was found increased on the 18th day of intrauterine development, i.e., at the time when fetal adrenocorticotropic activity begins. In comparison to controls, conversion of progesterone into fetal adrenal corticosteroids was the smallest in the fetuses of mothers with inhibited pituitary ACTH and the greatest in the adrenals of fetuses of mothers with activated pituitary adrenocorticotropic activity.     

Developmental profiles of catecholaminergic enzymes in adrenals of perinatal rats: effect of a hypoxic environment

Fetal and early neonatal development of adrenal catecholaminergic enzymes was studied in rats maintained under normal (normoxic) and high-altitude, 3800 m, 13% PO2 (hypoxic) conditions. In adrenals of normoxic fetuses, tyrosinehydroxylase (TH), DOPA-decarboxylase (DDC), phenylethanolamine-N-methyltransferase (PNMT), catechol-O-methyltransferase (COMT) and monoamine oxidase (MAO) showed rapid increases in activity from day 19 to day 21 of gestation. The activities of all enzymes but TH were higher at day 1 postpartum compared to fetal values: TH was equiactive just before and after birth. In animals conceived, born and raised at high altitude, several changes indicative of impaired adrenal development occurred. The activities of the synthesizing enzymes, TH, DDC and PNMT, were variably affected at some time during the perinatal period. The activities of the catabolizing enzymes, MAO and COMT, at high altitude were increased on the last days of gestation but depressed after birth, compared to control levels. Catecholamine content in high-altitude adrenals was altered on day 19 of gestation when epinephrine was lower, and again on day 1 postpartum when both norepinephrine and epinephrine were higher than in control adrenals at sea level. Normal developmental changes and high-altitude-induced disturbances in adrenal catecholaminergic enzymes are discussed with reference to differences observed in adrenal cortical function between sea-level and high-altitude animals.     

Fetal rat adrenal steroidogenesis and steroid transfer to adrenalectomized mother.

On the 22nd day of gestation in rats, fetuses of acutely adrenalectomized mothers were injected subcutaneously with 0.43 muCi 4-14C-progesterone in 0.05 ml saline. Ten and 20 min after injection to fetuses, samples were taken to determine the 14C-progesterone metabolites in the plasma and adrenal glands. After extraction of the samples taken, the metabolites were separated by two-dimensional thin-layer chromatography and identified by autoradiography. 11-deoxycorticosterone, 18-hydroxy-11-deoxycorticosterone, corticosterone and 11beta-hydroxyprogesterone were identified in the plasma of injected fetuses, and, in far smaller amounts, in the plasma of their mothers. The plasma of noninjected fetuses also contained very small amounts of these corticoids. The fetal adrenal glands contained far smaller amounts of radioactive steroids than the fetal plasma did. The results obtained show that steroids of fetal origin can cross the placenta in and out, constituting evidence that the fetal adrenal glands are the only source of the plasma corticoids of their adrenalectomized mothers.     

Influence of doxycycline administration on rat embryonic development during organogenesis

This experiment was performed to evaluate the possible embryotoxic and teratogenic effects of doxycycline during rat development. Twenty‐one female rats were used and distributed into three groups equally (seven animals/group). The low dose group received doxycycline at a dose of 5 mg/kg bw/day orally from the 6th to 14th day of gestation. The high dose group received 10 mg/kg bw/day orally for the same period, the Control group received 1 mL distilled water orally for the same period. The dams were dissected on the 20th day of gestation and their fetuses were subjected to morphological, skeletal, and histological examination. Moreover, DNA damage analysis of liver cells of pregnant rats and their fetuses or fetal skull was assessed by Comet assay. The obtained results showed a significant decrease in fetal body weight, several morphological anomalies, and severe lack of ossification on the skull bones, phalanges, and sternum bone as well as shortness in the ulna and radius bones. Histological studies of pregnant rats revealed congestion and dilatation of the central vein of the liver lobules and fatty degeneration of the hepatocytes. In addition, 20 day‐fetuses showed a marked increase of necrotic hepatocytes associated with an increased average of megakaryocytes and periportal leukocytic infiltration. Moreover, doxycycline induced a significant increase in the percentage of DNA damage and tail length of examined samples. Conclusively, doxycycline caused certain fetal abnormalities, so it is advisable to avoid using this drug during pregnancy.     

Experimental production of myeloschisis associated with hindbrain crowding in the central nervous system of rat fetuses by a single intragastric administration of ethylenethiourea

66 pregnant rats were divided into 9 groups according to gestation day 11 to 19. These pregnant rats were subjected to a single intragastric administration of ethylenethiourea (ETU) and cesarian sectioned on day 20. No dam died following the ETU treatment, but the rate of fetal death was as high as 21.2% on day 11, followed by a gradual decrease in the fetal death rate thereafter. The rate of production of various types of externally visible malformations was 100% except in the fetuses of dams treated with ETU on gestation day 19. The important results were as follows. (I) Fetuses of dams treated with ETU from gestation day 11 were found to suffer from a high incidence of myeloschisis associated with hindbrain crowding. (II) Exencephaly and an abnormally enlarged head with occipital bossing due to herniation of the mesencephalic tectum, with and without dilatation of the mesencephalic and 4th ventricle, were induced among the fetuses of dams given ETU at gestation day 12 and 13. (III) Various degrees of hydranencephaly and dysgenic hydrocephalus were found among the fetuses of dams treated with ETU from gestation days 14 to 18. The above results suggest that ETU may be a useful agent for the production of congenital malformations in the rat.     

The effect of hadacidin, ultraviolet irradiation of blood (UVB) and thiamine on the prenatal development of Uje:WIST rats: correlation with the hepatic activity of gamma-glutamyltranspeptidase (GGT)]

The influence of hadacidin, a model substance for induction of cheilognathouranoschisis in rat fetuses (2,550 mg/kg b.m. at gestation day 12), ultraviolet irradiation (UVB) of blood (1 week before gestation) and thiamine (25 mg/kg b.m. from gestation days 12 to 15) on the prenatal development of rats at the 20th day of gestation was investigated. Using the body mass and the hepatic GGT-activity as parameters. Hadacidin caused a distinct retardation of the fetal somatic development. Partially, the embryotoxic effect was compensated by UVB or thiamine. The combination of both procedures was more effective. There is a good correlation between the maturation grade of fetuses at day 20 of gestation and the hepatic GGT activity.     

Fetal lung development in streptozotocin-induced experimental diabetes: cytidylyl transferase activity, disaturated phosphatidyl choline and glycogen levels

The influence of streptozotocin-induced maternal diabetes on choline phosphate cytidylyltransferase activity (EC.2.7.7.15) glycogen content and disaturated phosphatidyl choline in fetal lung was studied between 19 and 21 days of gestation. In this experimental model, induction of maternal diabetes two days after mating, resulted in fetal hyperglycemia and hyperinsulinemia; the fetuses were neither macrosomic nor showed any evidence of fetal growth retardation. The glycogen content of lungs on days 19 and 20, but not on day 21 of gestation was significantly higher in fetuses of diabetic rats than in controls. The pulmonary cytosol cytidylyltransferase activity was similar in the two groups of fetuses on days 19 and 20. On day 21 of gestation the enzyme activity was significantly lower in fetuses of diabetic rats than in those of controls. On day 21 of gestation and in newborns of diabetic mothers, although there was no difference in the total pulmonary phospholipids, the levels of disaturated phosphatidyl cholines were significantly lower than in controls.     

Adrenal growth and ontogeny of adrenal substance P, enkephalins and catecholamines in the ovine fetus

Biologically active peptides have been identified in the adrenal glands of several adult mammalian species. Some of these peptides appear to modulate the nicotine-induced catecholamine release from the adrenal medulla. The present study was carried out to investigate the presence and ontogeny of the peptides substance P, met-enkephalin and leu-enkephalin in the ovine fetal adrenal gland from 70 to 140 days gestation (term = 145-150 days). Concurrently, the growth of the fetal adrenal as well as the gestational changes in catecholamine content were determined. The maternal adrenal glands were also studied for comparison. The ovine fetal adrenal gland increased in weight with advancing gestation at a single exponential rate. Total adrenal substance P content correlated with gestational age, while met-enkephalin, leu-enkephalin and total catecholamine contents correlated with adrenal weight. The adrenal content (normalized as per unit protein) of substance P was highest in the young fetuses at 70 days gestation, decreased progressively towards term and, in the adult levels were significantly lower than those measured in the fetuses. The contents of met-enkephalin and leu-enkephalin were low in the young fetuses at 70 days gestation, but reached high levels at 130 to 140 days gestation. Maternal adrenal contents of the two enkephalins were significantly lower than those measured in the near-term fetal adrenal. Total catecholamine content in the fetal adrenal medulla increased as the fetus matured. Norpinephrine was the primary catecholamine present in the medulla of fetuses at 70 and 80 days gestation, while epinephrine was the major one in the adult.(ABSTRACT TRUNCATED AT 250 WORDS)     

1,25-Dihydroxyvitamin D3 injections into rat fetuses : effects on fetal plasma calcium, plasma phosphate and mineral content

The in vivo effects of 1,25-(OH)2D3 were assessed using fetuses from normal and thyroparathyroidectomized (TPTX) pregnant rats. 21.5-day old decapitated fetuses from TPTX mothers exhibited lowered basal plasma calcium, elevated basal plasma phosphate and an increased percentage of total ash compared to intact littermates. In decapitated fetuses from normal mothers, neither plasma calcium nor plasma phosphate was changed. Subcutaneous injection of 1 micrograms of 1,25-(OH)2D3/kg of body weight to 19.5-day old fetuses (intact or deprived of their parathyroid glands by decapitation) from TPTX mothers induced a marked rise in plasma calcium levels (2.01 and 3.66 mg/dl, respectively) 48 h later. Little change occurred in fetuses from normal mothers (1.06 mg/dl in decapitated and no change in intacts). A decrease in plasma phosphate levels was observed with the same dose in both decapitated and intact fetuses from TPTX mothers (- 1.39 and - 0.65 mg/dl, respectively), while no modification was found in fetuses from normal females. Therefore, the hypersensitivity of fetuses from TPTX mothers to 1,25-(OH)2D3 was unrelated to the development of the fetal hyperparathyroidism secondary to maternal TPTX. The percentage of ash was unchanged in decapitated fetuses from TPTX mothers and was increased in intact littermates after 1,25-(OH)2D3 treatment. However, these values for total ash may represent alterations in bones and/or soft tissues.     

Iron deficiency in the rat: biochemical studies of fetal metabolism

The effects of dietary-induced iron deficiency on fetal and maternal metabolism were studied in the rat. Concentrations of phenylalanine, but not tyrosine, were significantly elevated in plasma from iron-deficient maternal and fetal rats at day 20 of gestation with individual fetal plasma levels of phenylalanine as high as 10 mg per 100 ml. Concentrations of total 5-hydroxyindole compounds were significantly decreased in brain tissue from iron-deficient fetuses (day 20 of gestation), suggesting that synthesis of the compounds may be inhibited by iron deficiency. Mitochondrial NADH oxidase activity was markedly decreased (60%) in homogenates of fetuses at day 14 of gestation and may account for the high fetal resorption rate and small fetal size observed in the rat in iron deficiency.     

Changes in testosterone levels in the testes of rat fetus after removal of the hypothalamus

To specify the time of setting in of the hypothalamic control over testicular androgenous function in the prenatal development of rats, the brain hypothalamic area of 18.5-day-old fetuses was excised by encephalectomy in utero. Three days after the operation, i. e. on day 21.5 of the development, testosterone concentration in the testes was measured by radioimmunoassay. Testosterone concentration in the testes of encephalectomized fetuses was significantly decreased as compared with intact fetuses. Administration of LH-RH into the encephalectomized fetuses 2 hours prior to fixation removed the effect of encephalectomy on testosterone concentration in the testicular tissue. The data evidence the establishment of the hypothalamic control over androgenous function of the testes in rat fetuses at the end of the prenatal development.