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The response of the adrenals from rat fetuses at 16,18 and 20 days of gestation to 1–24 ACTH and α-melanocyte-stimulating hormone (α-MSH) was studied in vitro. The response to 1–24 ACTH increased as gestation progressed. By the end of fetal life, corticosterone release induced by ACTH from whole adrenals was greater than that observed with adrenal tissue from non-pregnant adult female rats. High doses of α-MSH also stimulated adrenal activity but the response to ACTH was always higher than that to α-MSH.
The effect of 1–24 ACTH and α-MSH on fetal adrenal growth was also compared in vivo. The adrenal atrophy induced by fetal hypophysectomy on day 17 of gestation could be prevented by i.m. administration of 10 μg 1–24 ACTH or α-MSH. However, the adrenal growth was greater in ACTH-treated fetuses than in α-MSH-treated ones. Later in gestation, between days 19 and 20, 1–24 ACTH but not α-MSH was able to prevent atrophy induced by fetal hypophysectomy.
These findings are discussed in relation to the literature on levels of ACTH and α-MSH in the plasma and pituitary glands of the rat throughout the last third of gestation. High levels of ACTH in the fetal circulation contrast sharply with very weak or undetectable concentrations of α-MSH. Since the present data suggest that both trophic and steroidogenic activities of ACTH were greater than those of α-MSH, it may be concluded that ACTH but not α-MSH plays a major physiological role during gestation in the regulation of both fetal adrenal growth and function in the rat.
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ABSTRACT
The in-vitro release of ACTH by fetal rat pituitary glands on days 17, 19 and 21 of pregnancy was measured using radioimmunoassay.
The spontaneous release of ACTH, expressed in pg ACTH/gland per h, increased with fetal age, in correlation with the sharp rise in pituitary ACTH content. However, since pituitary ACTH content was nearly sevenfold higher at term than on day 17, while basal release of ACTH was only threefold higher, one can speculate that the spontaneous release of ACTH was proportionally greater on day 17 than on day 21 of gestation.
As corticosterone, at a physiological concentration (865 nmol/l), reduced ACTH release, it was concluded that the pituitary gland was one site of the negative feedback action of the corticosteroids during fetal life.
Quantities of synthetic ovine corticotrophin releasing factor (CRF) which gave concentrations of 0·3–30 nmol/l in the incubation medium induced a sharp rise in ACTH release which was log-dose dependent between 0·3 and 3 nmolCRF/1 on day 17 and between 0·3 and 30 nmolCRF/1 on days 19 and 21. The response to CRF increased with fetal age.
Quantities of arginine vasopressin (AVP) which gave concentrations of 2–200 nmol/l stimulated ACTH release at all stages of gestation investigated. However, the response to AVP was much lower than that to CRF.
Potentiation of CRF-induced ACTH release was not observed when whole pituitary glands from 21-day-old fetuses were incubated with AVP (20 nmol/l) + CRF (3 nmol/l).
Such results were correlated with the ontogenesis of immunoreactive vasopressin- and CRF-containing fibres in the median eminence of the rat fetus, as well as with the CRF-like immunoreactivity present in adult rat pituitary portal plasma and the AVP content of the fetal rat hypophysis.
J. Endocr. (1984) 101, 339–344
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The concentration of ACTH in the pars distalis and pars intermedia of the fetal rat hypophysis from days 17–21 of pregnancy was measured with a specific radioimmunoassay and a bioassay using isolated adrenal cells from adult rats.
In both lobes of the pituitary gland, a significant correlation was observed between immunoreactive and bioreactive values, expressed as pg equivalents synthetic human 1–39 ACTH per μg protein.
In the pars distalis, ACTH concentrations increased steadily from days 17–20 and then remained unchanged to term. At this time they were tenfold higher than on day 17. In the neurointermediate lobe, ACTH was detected only from day 18; the concentration of ACTH increasing between days 18 and 19. At each of the stages of pregnancy examined, the concentration of ACTH in the pars distalis was greater than that in the pars intermedia.
These data have demonstrated that ACTH is present in both anterior and neurointermediate lobes of the fetal rat hypophysis, that the functional differentiation of the pars distalis takes place earlier than that of the pars intermedia, and that the concentrations of corticotrophin in the pars distalis and in the pars intermedia have different patterns of development as gestation progresses.
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ABSTRACT
ACTH release by the anterior pituitary lobes of 8-day-old newborn rats (males and females) in the presence of rat corticotrophin-releasing factor (rCRF), arginine vasopressin (AVP) and oxytocin, given alone or in association, was measured in vitro. Rat CRF and AVP induced a dose-dependent release of ACTH in both sexes, while oxytocin was unable to stimulate ACTH secretion except at the highest dose tested. No sex-related difference was noted for any of the responses.
Oxytocin (1 nmol/l) potentiated the response to rCRF (0·20 nmol/l) by the anterior pituitary lobes of females but not by those of males. This oxytocin potentiation was abolished when female newborn rats were injected at birth with testosterone (1 mg). AVP (1 nmol/l) alone stimulated ACTH release from the anterior pituitary lobes of the newborn rats of both sexes and markedly potentiated the ACTH response to rCRF.
Although no difference between the sexes was noted for basal levels of AVP and oxytocin in the hypothalamus, the neurointermediate lobe and the peripheral plasma, the present data on the sex-related effect of oxytocin on the newborn adenohypophysis could, in part, explain why ACTH release in response to ether stress was previously reported to be more lasting in females than in males on day 8 postpartum.
Journal of Endocrinology (1993) 137, 123–132
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SUMMARY
Adrenal and plasma corticosterone levels were determined in rat foetuses and in intact or adrenalectomized mothers during late pregnancy. Foetal adrenal and plasma corticosterone concentrations reached a peak on day 19 of pregnancy, while maternal plasma corticosterone increased on day 18 and remained high until parturition. From day 18, mothers adrenalectomized on day 14 had corticosterone levels similar to those of intact pregnant rats. At every stage of gestation (except day 21) plasma corticosterone levels were higher in the foetuses than in the mothers. The corticosterone concentration in the maternal plasma correlated with the number of live foetuses during the last 3 days of gestation.
These results suggest that corticosterone can cross the placenta from foetus to mother as early as day 18 and that the foetus contributes to the maternal corticosterone pool after day 18.
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ABSTRACT
Adenylate cyclase activity was studied in crude adrenal membranes from fetal and newborn rats. Basal adenylate cyclase activity was higher in fetal than in newborn rats. ACTH(1–24) (1 μmol/l), guanosine (β,γ-imido diphosphate) (Gpp(NH)p) (10 μmol/l) and forskolin (100 μmol/l) stimulated the activity of the enzyme at all stages studied. The sensitivity of the enzyme to ACTH was maximal on days 17 and 19 of gestation. When Gpp(NH)p was added to ACTH(1–24), the response was significantly higher than that induced by Gpp(NH)p alone. Forskolin and Gpp (NH)p alone increased the adenylate cyclase activity and the sensitivity of the enzyme to these compounds was higher in newborn rats than in fetuses. Treatment of 21-day-old rat fetuses with ACTH increased the response of adenylate cyclase to Gpp(NH)p alone or to forskolin whereas treatment with dexamethasone did not modify the response of the enzyme to either Gpp(NH)p alone or forskolin. Our results show that the change in the responsiveness of adenylate cyclase takes place immediately after birth during the first week and ACTH is able to induce a maturation of the fetal adrenal adenylate cyclase system.
Journal of Endocrinology (1990) 126, 211–216
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ABSTRACT
Binding of ACTH to receptors was studied on crude adrenal membranes from fetal and newborn rats. 125I-Labelled ACTH(1–24) was used as the radioligand, the steroidogenic potency of which was 100-fold lower than that of unlabelled ACTH(1–24). Binding was specific, rapidly equilibrated and temperature dependent. Scatchard analysis of the binding data revealed a single class of binding sites with a dissociation constant of about 100 nmol/l at all stages of development studied. The concentration of ACTH receptors expressed per mg membrane proteins decreased in fetuses between days 17 and 21 of gestation and remained stable in newborn rats from weeks 1 to 4. The number of ACTH receptors expressed per adrenal increased regularly in fetal and newborn rats. The perinatal evolution of these concentrations of ACTH receptors is related to the increase in the size of the adrenals and the changes in cytoplasmic structures of the adrenocortical cells. When the number of ACTH-binding sites was expressed per μg DNA, maximum values occurred in fetuses on day 19 of gestation, and minimum values in newborn rats, 1 week after birth. There was an excellent correlation between the plasma levels of immunoreactive ACTH and corticosterone and the number of ACTH receptors per μg DNA during the perinatal period. Other results suggest that ACTH is able to up-regulate the number of its own receptors.
Journal of Endocrinology (1989) 123, 421–428