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Opioid peptides are negative regulators of cell proliferation in several organs including the uterus. In the present study, the ontogeny of the direct inhibitory action of opioid peptides on the proliferation of cultured rat uterine cells was investigated. Uteri of 7, 14, 21, 28, 35 and 60-day-old rats were removed in a sterile way. Tissue blocks were dispersed by limited digestions with trypsin and collagenase. Cells were cultured in enriched Dulbecco's modified Eagle's medium (DMEM). Treatments were present during the entire culture period. Cell densities of the monolayers were determined by counting the cells following trypsinization and trypan blue exclusion. Rat uterine mixed cell cultures grew to confluence within 10 days. The average population doubling time gradually increased with the age of animals. Epidermal growth factor (EGF) increased cell densities of cultures from all age groups. The oestradiol (E2)-responsiveness appeared at 21 days of age. The effect of [D-Met2-Pro5]-enkephalinamide (ENK) was biphasic. ENK and [Met5]-enkephalin (OGF) decreased cell densities of both unstimulated and EGF-stimulated cultures from 7-day-old rats to the same extent. ENK failed to act in 14-day-old animals. From 21 days of age on, the E2- or EGF-stimulated proliferation was inhibited only by ENK and DAMGO, while 30 nm DPDPE, Dynorhin-A, OGF, [Leu5]-enkephalin, beta-endorphin, and morphiceptin were ineffective. The half-inhibitory concentration of ENK was 0.3 nm. The effects of ENK were prevented by concomitant treatment with naloxone. Our novel data demonstrate two different phases of the inhibitory action of opioid peptides on rat uterine cell proliferation during ontogeny with an insensitive interval in between.

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Endogenous opioid peptides are negative regulators of estradiol-induced uterine cell proliferation. To investigate the possible molecular target site(s) of their anti-mitogenic action, we examined the effect of opioid peptides on epidermal growth factor-induced cell proliferation both in uterine primary cell cultures prepared from adult rats and in human myometrial smooth muscle cell lines. Epidermal growth factor (EGF) significantly increased cell density in both types of cultured monolayers. This EGF-induced stimulation of cell proliferation was blocked by [D-Met(2)-Pro(5)]enkephalinamide in a time-dependent, receptor-mediated manner. The effective concentrations were within the physiological nanomolar range. Enkephalinamide did not have any effect on the basal rate of proliferation of the uterine cells. Our results on this novel physiological cross-talk suggest that shared step(s) of the mechanism of action of estradiol and EGF might be targeted by opioid peptides and not the general machinery of cell proliferation.

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The effects of a single injection or continuous infusion of opioid peptide, [D-Met(2),pro(5)]enkephalinamide (ENK) on the hormone binding and transcriptional properties of estrogen receptors were investigated in estradiol (E(2)) treated rat uterus. The level of estrogen- (ER) and progesterone receptor (PR) proteins, the hormone binding of E(2) receptors and the effects of single injection of ENK with or without naltrexone (NAL) on the E(2)-induced changes in the level of Fos and Jun proteins and the binding of AP-1 proteins to DNA were studied. The receptor proteins levels were determined by Western blots and the binding of AP-1 to DNA by electrophoretic mobility shift assay. Both the ER and PR protein concentrations and the [3H]Estradiol binding to the high affinity nuclear receptors decreased after ENK treatment during the first two days. At 72 h the PR concentration decreased further, while no significant changes were found in the level of ER, however, at this time the former competitive E(2) binding turned into positive cooperativity. The E(2)-induced increase in the level of Fos proteins and the binding of AP-1 proteins to DNA was inhibited by a single injection of ENK. We conclude that the endogenous opioid peptides may interact with E(2) in the gene regulation of rat uterus.

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The aim of the present experiment was to investigate the effect of [D-Met2,Pro5] enkephalinamide (ENK) implantation on the development of the uterus during 8-33 days of age and the involvement of epidermal growth factor (EGF) in the effect. Administration of ENK was attained by osmotic minipumps (5 microg/h) implanted intraperitoneally. ENK resulted in a decrease in the EGF content of the uterus, which was already significant after 48 h of the implantation. The DNA content 24 and 48 h after the treatment decreased, no change at 72 h was found, however the protein/DNA ratio on the effect of ENK treatment was significantly decreased at this time in all examined age groups. High affinity and lower capacity competitive naloxone binding sites were demonstrated in the membrane fraction of the uteri. Seventy-two h after ENK treatment the binding capacity of these sites significantly dropped. The present results suggest a novel multiple interaction between estrogen and two probably paracrine hormones, EGF and opioid peptide, in the regulation of growth and development of the uterus.

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The present studies demonstrate, for the first time, that the binding of activator protein-1 (AP-1)-DNA in rat uterus and the estrogen-sensitive areas of the hypothalamus, as measured by electrophoretic mobility shift assay, is increased 2 h after intraperitoneal injection of [D-Met(2),Pro(5)]enkephalinamide. The effect was prevented by the opiate antagonist naltrexone given 30 min before the administration of [D-Met(2),Pro(5)]enkephalinamide, suggesting the involvement of opioid peptide receptors in the observed effects. The present findings support the role of opioid peptides in the regulation of transcription in estrogen-sensitive cells.

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The effect of opioid peptides on cultured, oestradiol-stimulated human myometrial cells was examined. Oestradiol increased cell densities in mixed-cell (smooth muscle cells + stromal fibroblasts) cultures by 40%. This oestradiol-induced stimulation of cell proliferation was decreased to control values by D-met2-pro5-enkephalinamide. The half-effective inhibitory concentration of enkephalinamide was 0.3 nmol/l. The opioid-induced inhibition of cell proliferation was blocked completely by the specific opiate receptor antagonist naloxone, while naloxone did not have any effect on its own. This opioid effect was mediated dominantly by the mu opiate receptor. The optimal concentration for oestradiol to stimulate uterine cell proliferation was 2.2 nM. The basal rate of cell proliferation was not affected by enkephalinamide. In saturation experiments, the parameters of specific [3H]-naloxone binding were: dissociation constant = 1.02 nM, maximal binding capacity = 2910 binding sites/cell, Hill coefficient = 1.029. In human myometrial pure smooth muscle cell cultures, oestradiol decreased the proliferation of cells. Progesterone potentiated these oestradiol effects, but had no effect on its own. Enkephalinamide was also able to block the effects of oestradiol, but naloxone did not antagonize it. In summary, here we present a novel inhibitory role of endogenous opioid peptides in the regulation of cell growth and proliferation in the human uterus.

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The effect of opioid peptides on estradiol-induced cell proliferation in adult rat uterine primary cell cultures was studied. Estradiol increased cell density by 40%. This estradiol-induced stimulation of cell proliferation was decreased to control values by [D-Met2,Pro5]enkephalinamide. The opioid-induced inhibition of uterine cell proliferation was blocked completely by the specific opiate antagonist naloxone, while naloxone did not have any effect on its own. The inhibition of cell proliferation by enkephalinamide was apparent at each stimulatory estradiol concentration examined. This opioid effect was mediated mainly by the mu opiate receptor. The observed effects occurred within the physiological nanomolar concentration range. Enkephalinamide did not have any effect on the basal proliferation rate of adult rat uterine cells. However, enkephalinamide inhibited the basal rate of cell proliferation in cell cultures prepared from 7-day-old immature rats. In summary, here we present evidence of novel physiological direct cross-talk between the opioid and estrogenic signaling systems in the regulation of normal uterine growth.

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The present studies demonstrate, for the first time, that the rate of DNA synthesis in rat uterus of 21-32 days of age is inhibited by opioid peptides [D-Met2, Pro5]enkephalinamide. At around the time of vaginal opening (approximately 33 days) the opioids failed to act. High-affinity nuclear [3H]naloxone binding sites with linear Scatchard plots were detected in the uteri during the opioid-sensitive periods of DNA synthesis. Characteristics of these binding sites and the opioid sensitivity of uterine DNA synthesis are dependent on the age of the animals, the level of circulatory oestradiol and/or the maturity of the nuclear oestrogen receptor system.

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High affinity (Kd approximately 1 nM) and low capacity [3H]naloxone binding sites were detected in the nuclear fraction of rat hypothalamus. The profile of this binding changed with age. In immature rats from 11 days of age until vaginal opening (approximately 33 day) the Scatchard plots of saturation data were linear and the Hill coefficient was 1, while just after vaginal opening (< 6 h) Scatchard analysis of [3H]naloxone binding gave a curvilinear component, with the Hill coefficient approximately 2, followed by an increase in binding sites and a decrease in Kd. In adults, after ovariectomy, the pattern of [3H]naloxone binding was similar to that observed in immature rats before vaginal opening. Following oestradiol treatment, binding sites with linear Scatchard plots disappeared and returned at least 24 h after hormone administration.

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The effects of a single dose of naloxone and of [D-Met2,Pro5]enkephalinamide on the DNA synthesis in the uterus of 7, 14 and 21-day-old rat were studied. After [D-Met2,Pro5]enkephalinamide treatment, an age-dependent decrease in in vitro [3H]thymidine incorporation into DNA was observed in all studied age groups. In the 21-day-old age group a reduced rate of DNA synthesis was detected for 12 h after [D-Met2,Pro5]enkephalinamide treatment followed by the return to control values at 24 h. The rate of inhibition was more marked in the younger age groups. The effect was also more pronounced in younger animals. Specific [3H]naloxone binding was detected both in membrane and nuclear fractions of uterine homogenates. While no age-related changes in binding affinities were found, the number of binding sites varied characteristically during development. Our data suggest the novel involvement of opioid peptides and their receptors in the regulation of uterine development.

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Effects of a single dose of oestradiol (Oe) on [3H]naloxone (Nal) binding in ovariectomized rat uterus were studied. Specific [3H]Nal binding was assessed by saturation analysis in 800 g supernatants and pellets of uterine homogenates. Two binding sites with higher (Kd approximately 1 nM) and lower affinity (Kd approximately 15 nM) for Nal were observed, their binding capacities and affinities have changed after Oe treatment in a time-dependent manner. The high affinity binding sites, detected only in the cytoplasmic fraction, disappeared after 1 h and only became detectable again at 24 h after hormone treatment, the lower affinity binding sites, after an initial drop, slowly increased, peaking at the 9th hour of hormone injection. The competition experiments indicate the involvement of different opiate receptor subpopulations in Oe induced changes. In the nuclear fraction, the Bmax values started to increase at 15 h, reaching the highest level at 18 h. The Kd values of lower affinity sites, in both studied compartments, were increased, i.e. the affinity decreased in the second half of the examined period.

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To probe the possible involvement of endogenous opioid peptides (EOPs) in progesterone (PG) antagonism on oestradiol-17 beta-(OE) induced uterine cell proliferation, the opioid antagonist naltrexone hydrochloride (NTX) and anti-[Met5]-enkephalin antiserum (AME) were investigated for their effect on uterine DNA synthesis in ovariectomized rats pretreated with OE and PG 24 h before killing. As an index of DNA synthesis the rate of in vitro incorporation of [3H]thymidine ([3H]TdR) into DNA was measured. The inhibitory effect of PG on OE-induced DNA synthesis could be diminished by approximately 42 and approximately 20% by the NTX treatments given directly into the uterine horns 13 and 4h before killing, respectively. Intraluminal AME treatments were only effective when they were administered 13 h before decapitation. Systemic blockade of opioid receptors by intraperitoneal NTX injections given every 6 h to the OE + PG-treated rats did not result in the disinhibition of uterine [3H]TdR incorporation. Our results suggest the involvement of EOPs--including [Met5]-enkephalin--as autocrine/paracrine factors in the PG antagonism on OE-induced uterine DNA synthesis.

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Opioid drugs and peptides were investigated for their effect on uterine DNA synthesis induced by a single injection of 17 beta-oestradiol given to ovariectomized rats 24 h prior to decapitation. [D-Met2,Pro5]-enkephalinamide administered 12, 2 or 1 h before killing resulted in a significant (approximately 50%) inhibition of in vitro [3H]-thymidine incorporation into DNA, while injections given 24 or 6 h before decapitation were ineffective. Non-linear regression of the dose-effect curves resulted in an ED50 of approximately 0.26 and approximately 0.45 microgram/100 g b.wt. for the opioid treatments given 12 or 2 h before killing, respectively. These effects could be completely reversed by the opioid antagonist naloxone injected 30 min prior to the agonist treatment, while naloxone itself had no effect. Morphine and [D-Ala2,D-Leu5]-enkephalin administered 12 h, as well as dynorphin A fragment 1-13 given 2 h before decapitation also inhibited oestradiol-induced uterine DNA synthesis. In ovariectomized animals without 17 beta-oestradiol priming no significant effect of [D-Met2,Pro5]-enkephalinamide or naloxone on [3H]TdR incorporation was found.

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Effects of a single dose of naloxone and of D-Met2-Pro5-enkephalinamide on the DNA synthesis in the forebrain, hypothalamus and cerebellum of 11 day old female rats were studied. As an index of DNA synthesis the rate of incorporation of 3H-thymidine into DNA was measured 30 min after a sc. injection of 40 muCi/100 g b.w.. A time dependent effect of naloxone administration on cerebral DNA synthesis was observed. In the forebrain at 1 and 3 hrs after naloxone injection an increased rate of 3H-thymidine incorporation into DNA was found followed by a marked decrease at 9 and 12 hrs. The effect in the hypothalamus was similar but the initial increase at 1 hr was absent. On cerebellar DNA synthesis naloxone had no effect. The administration of D-Met2-Pro5-enkephalinamide resulted in a marked reduction in the labelling of cerebral and hypothalamic DNA between 1 to 12 hrs. Except a decrease at 1 hr no effect was found in the cerebellum.

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The effect of oestradiol treatment on protein synthesis in the cytosol fraction (10(5) g supernatant) from ovariectomized mature and developing female rat hypothalami were studied. Results obtained on adults by double-label technique and SDS polyacrylamide gel or cellogel electrophoresis show that, as in the uterus, oestradiol-induced protein synthesis (IP) occurred in the cytosol fraction of the hypothalamus. The molecular weight of IP was about 40 000 dalton. During postnatal development, IP was also observed in cytosol fractions from the hypothalami of female rats 14, 21 and 28 days old. No clear-cut effect of oestradiol was found in the 7-day-old animals.

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Chlorpromazine, a widely used drug in current clinical practice, produced a severe reduction of the rate of [3H]thymidine incorporation into brain DNA of 11-day-old rats. The depression of in vivo synthesis rate was detectable by 6 h after chlorpromazine administration (50 mg/kg, s.c.) and the rate was less than 40% and 60% of controls during period 14-30 h in forebrain and 6-30 h in cerebellum respectively. The depression was dose-dependent and half maximal effect was produced with about 10 mg/kg chlorpromazine. The drug caused some retardation in the rate of conversion of [3H]thymidine to [3H]thymine nucleotides in the brain, but the severe depression in DNA labelling was also evident after correcting the values on the basis of [3H]thymine nucleotides concentration. Mitotic activity was significantly reduced in the cerebellar external granular layer. Increased numbers of cell degenerations, shown by Feulgen cytophotometry to be postmitotic, were seen in both layers 12 and 32 h after chlorpromazine. Analysis of cell cycle parameters showed no significant changes. However, the labelling index in subependymal cells was reduced, indicating an increase in turnover time of about 40%. The results are consistent with an action of chlorpromazine on cell proliferation, either by direct effects on the generation and survival of cells, or via its major pharmacological actions on neurotransmitter balance. These effects are potentially of functional and clinical significance.

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The effect of 1 mg testosterone propionate (TP) administered on the 2nd day of life was studied on DNA synthesis in the anterior and posterior pats of the hypothalamus, in the forebrain, anterior pituitary and liver in 5, 7, 14 and 21 days old female rats. As an index of DNA synthesis the rate of 2-14C-thymidine (40 muCi/100 g body weight) incorporation into DNA was measured 1 hr after a subcutaneous injection . As an effect of TP treatment in both hypothalamic regions the rate of thymidine incorporation into DNA, markedly decreased during the first two weeks of life, while at 21 days no difference from the control value was found. In the anterior pituitary too therate of DNA synthesis decreased at 5 and 7 days but at 14 and 21 days the values were similar to the controls. TP treatment had no effect on the rate of DNA synthesis in the forebrain or in the liver.

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