Prenatal Amphetamine-Induced Dopaminergic Alteration in a Gender- and Estrogen-Dependent Manner.

Prenatal exposure to amphetamine induces changes in dopamine receptors in mesolimbic areas and alters locomotor response to amphetamine during adulthood. Sex differences have been reported in amphetamine-induced brain activity and stress sensitivity. We evaluated the effects of prenatal amphetamine exposure on locomotor activity, dopamine receptors and tyrosine hydroxylase mRNA expression in nucleus accumbens and caudate-putamen in response to amphetamine challenge in adult female and male rats. The role of estrogen in the response to restraint stress was analyzed in ovariectomized, prenatally amphetamine-exposed rats. Pregnant rats were treated with D-amphetamine during days 15-21 of gestation. Nucleus accumbens and caudate-putamen were processed for mRNA determination by real-time PCR. In nucleus accumbens, higher mRNA dopamine (D3) receptor expression was found in basal and D-amphetamine-challenge conditions in female than male, and prenatal amphetamine increased the difference. No sex differences were observed in caudate-putamen. Basal saline-treated females showed higher locomotor activity than males. Amphetamine challenge in prenatally amphetamine-exposed rats increased locomotor activity in males and reduced it in females. In nucleus accumbens, estrogen diminished mRNA D1, D2 and D3 receptor expression in basal, and D1 and D3 in ovariectomized stressed rats. Estrogen prevented the increase in tyrosine hydroxylase expression induced by stress in ovariectomized prenatally exposed rats. In conclusion, estrogen modulates mRNA levels of D1, D2 and D3 receptors and tyrosine hydroxylase expression in nucleus accumbens; prenatal amphetamine-exposure effects on D3 receptors and behavioral responses were gender dependent.

Effects of hypothyroidism on the mesenteric and omental adipose tissue in rats.

To characterize the influence of hypothyroidism on the endocrine activity of mesenteric and omental adipose tissue (MOAT) and the peripheral regulation of energy balance (EB) in rats, we analyzed food intake (FI); basal metabolic rate (BMR); locomotor activity; body weight (BW); serum hormone concentrations and the expression of their receptors in MOAT. We evaluated the morphology and differentiation of adipocytes. Hypothyroidism decreased FI, BMR and BW. The percentage of visceral white adipose tissue (WAT) depots and the morphology of adipocytes were similar to euthyroid rats. Serum leptin and adiponectin expression in MOAT were altered by hypothyroidism. The expression of Perilipin 1, HSL, UCP1 and PRDM16 was significantly lower in MOAT of hypothyroid animals. Hypothyroidism in rats leads to a compensated EB by inducing a white adipocyte dysfunction and a decrease in BW, BMR, FI and adipokine secretions without changing the percentage of WAT depots and the morphology of the MOAT.

Participation of opioid peptides in sucking-induced oxytocin and prolactin secretions in lactating goats.

The role of opioid peptides in the secretion of oxytocin (OT) and prolactin (PRL) induced by sucking was studied in goats. Seven goats were isolated with their kids (four singletons and three twins) in individual corrals 3-4 weeks after parturition. On day 1 of the experiment, the kids were separated from the does for 7 h and were weighed before and 15 min after being reunited with their mothers to assess the amount of milk obtained by sucking. The does were blood-sampled 10 min before and at the end of the sucking period. On day 2, a similar protocol was followed, but naloxone was given immediately after the first blood sample. On day 3, the protocol was repeated but saline vehicle was injected instead of naloxone. On day 5, the naloxone experiment was repeated as on day 2. Milk ejection was evaluated as the difference in the weight of the kids before and after sucking for 15 min, and the maternal serum levels of OT and PRL were measured by radioimmunoassay. A significant decrease in the weight gain of the kids was obtained when the mothers were treated with naloxone on day 2. Consistently, serum levels of OT and PRL induced by sucking were significantly reduced; indicating that sucking-induced OT secretion for milk ejection in lactating goats is facilitated by opioid peptides. In a second experiment performed in the same animals 10 days later, the administration of OT, immediately after naloxone administration, prevented the decrease in the weight gain induced by naloxone, suggesting that the effect of the opioid antagonist on milk ejection in goats is a result of a reduced OT secretion. The results of this study confirm the importance of sucking-induced OT secretion for milk ejection in lactating goats, and indicate that OT and PRL secretion are regulated by opioid peptides in this species.

Involvement of opioid receptor subtypes in both stimulatory and inhibitory effects of the opioid peptides on prolactin secretion during pregnancy.

1. We have previously demonstrated the existence of a dual neuromodulatory regulation of prolactin secretion by the opioid system. In the present work, we evaluated the opioid receptor subtypes involved in both the stimulatory and the inhibitory regulation of prolactin secretion in pregnant rats. 2. Specific opioid agonists and antagonists were administered intracerebro ventricular (i.c.v.) to rats on day 3 and on day 19 pregnancy in rats of pretreated with mifepristone. Blood samples were obtained after decapitation at 12.00 and 18.00 h. Serum prolactin levels were measured by RIA. 3. The mu-selective agonist DAMGO and beta-endorphin caused a significant increase in serum prolactin secretion on day 3 of pregnancy, during the diurnal surge and intersurge period. Pretreatment with naloxone prevented the increase on prolactin levels induced by DAMGO. The administration of U-50,488, a kappa-selective agonist or DPDPE, a delta-selective agonist, did not modify serum prolactin concentration while the mu1-antagonist naloxonazine reduced significantly serum prolactin levels. On day 19 of pregnancy, the release of prolactin induced by mifepristone was significantly increase by naloxonazine, while the kappa-antagonist nor-binaltorfimine induced only a small but significant increase. No effect was observed after administration of the delta-antagonist naltrindole. 4. We conclude that the mu-opioid receptor seems to be more specifically involved in both the stimulatory and inhibitory regulation by the opioid system on prolactin secretion during pregnancy. The increase on serum prolactin levels on day 3 after administration of DAMGO and beta-endorphin may suggest the participation of other regulatory mechanisms as the dopaminergic and serotoninergic systems. On day 19, only the endogenous ligands delta did not participate in the regulation of prolactin secretion, while the participation of the kappa-opioid receptor was significantly less effective than the endogenous ligand mu. Our results provide evidences of an important role of the opioid system through specific receptors on the regulation of prolactin secretion during early and late pregnancy.

Regulation by endogenous opioids of suckling-induced prolactin secretion in pregnant and lactating rats: role of ovarian steroids.

Evidence suggests that endogenous opioid peptides are implicated in the suckling-induced prolactin rise. We explored the role of the opioid system and the participation of ovarian hormones in the regulation of prolactin induced by the suckling stimulus at the end of pregnancy in rats with developed maternal behavior, and during lactation. Suckling for 24 h induced a significant increase in serum prolactin on day 19 of pregnancy, which was increased more than three times when naloxone (2 mg/kg s.c.) or mifepristone (2 mg/kg) was administered. The combination of naloxone and mifepristone did not increase serum prolactin more than either compound alone. Administration of tamoxifen (500 microg/kg orally) on days 14 and 15 of pregnancy completely abolished the effect of naloxone, indicating a role for estrogens in establishing this inhibitory role of opioids. To examine the participation of the opioid system during lactation, we used groups of rats on days 1, 3, 5, 12 and 19 postpartum either (i) isolated from the pups for 4 h, or (ii) isolated from the pups for 3.5 h and reunited with them and suckled for 30 min. Naloxone, given just before replacing the pups, prevented the increase in serum prolactin levels observed in the suckled group of rats but had no effect on the basal levels of the isolated rats. To examine whether the participation of the opioid system in the release of prolactin is dependent on the variation of progesterone levels, rats on day 20 of pregnancy were implanted with two cannulae containing progesterone (that blocked postpartum ovulation) or cholesterol, and cesarean surgery was performed on day 21. To maintain lactation, pups (1-3 days old) were replaced every 24 h, and 4 days after the cesarean eight pups were placed in the cage at 1800 h to maintain a strong suckling stimulus during the following 24 h. Naloxone administration significantly reduced serum prolactin levels in control (cholesterol) rats but progesterone implants prevented the inhibitory effect of naloxone and this effect was not modified by treatment with estrogen. These results indicate that the opioid system modulates suckling-induced prolactin secretion, passing from an inhibitory action before delivery to a stimulatory action during lactation. This regulatory shift seems to be dependent on the fall in progesterone concentration at the end of pregnancy and the subsequent increase after the postpartum ovulation and luteal phase.

Participation of the opioid system in the regulation of prolactin secretion in androgenized rats: effect of ovarian steroids.

We examined the role of the opioid system on the regulation of prolactin secretion in neonatally androgenized rats and evaluated the participation of ovarian steroids in this regulation. Androgenized rats exhibited an increase of prolactin secretion with higher serum circulating levels in the afternoon (1800) than in the morning (1000). The administration of the opioid antagonist naloxone (2 mg/kg, 30 min before decapitation) reduced serum prolactin levels in both groups. To identify the opioid receptor subtypes involved in this regulation, opioid agonists were administered i.c.v. 15 min before the decapitation (1000). The mu-opioid receptor agonist DAMGO ([D-Ala2, NMe-Phe4, Gly5-ol]-enkephalin) caused a significant increase in serum prolactin concentration. The selective kappa-opioid receptor agonist U-50, 488H (trans-(+/-)-3,4-dichloro-N-[2(1-pyrrolidinyl)-cyclohexyl]-benzene acetamide methane sulfonate salt) induced a small but significant increase in serum prolactin levels but no effect was observed after administration of the delta-opioid agonist DPDPE ([D-Pen2, D-Pen5]-enkephalin). The role of oestradiol and the opioid system in the continuous secretion of prolactin was also study. Chronic gonadectomy (3-4 weeks) reduced serum prolactin concentrations measured at 1000 but the administration of naloxone had no effect. Three days of oestrogen treatment (2 microg/rat in oil) restored serum prolactin levels compared with ovariectomized animals and this effect was abolished by naloxone treatment. Interestingly, acute ovariectomy or administration of tamoxifen to intact androgenized rats did not prevent the continuous secretion of prolactin observed in these animals and naloxone treatment reduced serum prolactin levels in both groups of rats. We also examine the participation of adrenal progesterone and the endogenous opioid peptides on the regulation of prolactin levels in androgenized rats. After adrenalectomy, no changes in serum prolactin levels (1000) were observed compared with the control animal and naloxone treatment significantly reduced circulating prolactin levels. Progesterone treatment to intact androgenized rats significantly increased prolactin levels and the administration of naloxone blocked the stimulatory effect of the steroid. These results suggest that the opioid system play a role in the regulation of prolactin secretion in androgenized rats modulated by the persistence of oestrogen action. Moreover, the presence or absence of progesterone did not modify the regulation of prolactin secretion by the opioids. The mu- and kappa-opioid receptor subtypes are the ones involved in the modulation of pituitary prolactin secretion.

Opioidergic regulation of prolactin secretion during pregnancy: role of ovarian hormones.

We have recently demonstrated the existence of a neuromodulatory regulation of prolactin secretion by the opioid system showing a paradoxical opioid-induced prolactin suppression at the end of pregnancy. The aim of this study was to determine a possible interaction between the opioid system and ovarian hormones on the release of prolactin during pregnancy. Serum prolactin levels measured at 1800 h were significantly higher on days 3 and 6 of pregnancy when compared with the other days of gestation. These increases in serum prolactin were reduced significantly by naloxone (2 mg/kg) administered at 1730 h and by RU-486 (10 mg/kg) administered at 0800 h. The response induced by RU-486 was potentiated by naloxone only on day 3. On days 7, 13 and 16, prolactin secretion was not modified by RU-486 and/or naloxone treatment. In RU-486 pretreated rats, naloxone administration increased serum prolactin levels only on day 16 of pregnancy. Interestingly, progesterone treatment (0.5 mg/rat) on days 13, 14 and 15 of pregnancy prevented the high increase in serum prolactin induced by RU-486 and naloxone on day 16 of pregnancy. The progressive increase and decrease of serum progesterone concentration during pregnancy was not modified by naloxone treatment. The participation of oestrogen in the regulation of prolactin secretion by the opioid system on days 3, 16 and 19 was examined by treating these groups of rats with oestradiol benzoate or tamoxifen citrate. Oestradiol (2 micrograms/rat) significantly increased serum prolactin levels on day 3 and naloxone administration did not modify this increase. No effect was observed after oestradiol (5 micrograms/rat) and naloxone treatment on days 16 and 19 of pregnancy. Oral administration of tamoxifen (500 micrograms/kg) the previous day did not modify the serum prolactin concentration measured at 1800 h in oil-treated rats on days 3, 16 and 19 of pregnancy. The antioestrogen completely abolished the naloxone-induced prolactin secretion on day 16 in rats pretreated with RU-486 but no effect was observed on day 19. When tamoxifen was administered on days 14 and 15 of pregnancy, the high serum prolactin levels on day 19 induced by treatment with RU-486 and naloxone were significantly reduced. In conclusion, these results provide an important new insight into the existence of a dual neuromodulatory regulation of prolactin secretion by the opioid system during pregnancy. After a stimulatory action during the first days, there is a change to an inhibitory control at the end of pregnancy, starting around day 16. Moreover, the activation of the inhibitory modulation of the opioid system on prolactin secretion on days 16 and 19 of pregnancy seems to be mediated by changes in the oestrogen and progesterone action.

A modulatory role of endogenous opioids on prolactin secretion at the end of pregnancy in the rat.

It is well known that the fall in serum progesterone concentrations during late pregnancy induces prolactin secretion in rats. On day 19 of pregnancy, administration of 10 mg of the antiprogesterone RU-486/kg induced a small but significant increase in serum prolactin. A lower dose (2 mg/kg) was not effective. Administration of naloxone (2 mg/kg) to pregnant rats on day 19 of pregnancy did not modify circulating prolactin but, after RU-486 treatment, a notable increase in serum prolactin was obtained 30 min after naloxone was given. The lack of effect of naloxone-methobromide in pregnant rats pretreated with RU-486 may indicate that the opioid-induced prolactin suppression acts centrally, most probably at the hypothalamic level. During day 21 of pregnancy, the time-course of prolactin secretion, measured at 0900, 1400, 1900 and 2200 h, was inversely correlated with circulating progesterone levels. At 0900 h, serum prolactin was very low with high serum progesterone concentrations but a significant increase in serum prolactin occurred at 2200 h; this was coincident with a significant decrease in the steroid. The stimulatory effect of naloxone on prolactin secretion was clearly dependent on the circulating progesterone level. Thus, at 1900 h of day 21, naloxone induced a significant increase in serum prolactin but, at 2200 h, the opioid antagonist dramatically enhanced the circulating level of prolactin. The serum prolactin increase induced by naloxone at 1900 h was prevented by the s.c. administration of 5 mg progesterone given 7 h earlier.(ABSTRACT TRUNCATED AT 250 WORDS)

Structure-activity relationships of the delta-opioid-selective agonists, deltorphins.

Deltorphins are naturally occurring peptides with high affinity and selectivity for delta-opioid receptors. They share with dermorphin, another mu-selective opioid agonist, the same N-terminal tripeptide Tyr-D-Xaa-Phe, where D-Xaa is a D-Ala or a D-Met residue. This common sequence appears to be essential for the best fitting of the peptides to both mu- or delta-opioid sites. We studied the changes in receptor affinity and selectivity and in biological potency of deltorphins due to shortening of the sequence, C-terminal deamidation or single amino acid substitutions. The results support the view that a code addressing the molecule towards delta-opioid sites is expressed in the C-terminal region of these peptides. This addressing domain confers high delta-selectivity to the ligand in the following two ways: (i) increased affinity for delta-sites; (ii) decreased affinity for mu-sites. The sequence of the C-terminal tripeptide appears to be responsible for the high delta-affinity of the molecules. Negatively charged side chains inhibit mu-binding and enhance delta-selectivity.