Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P01178 (oxytocin)
15,767 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Progesterone, produced by the ovaries and adrenal glands, regulates reproductive behavior and the surge of luteinizing hormone which precedes ovulation by acting on neurons located in different parts of the hypothalamus. The study of the activation of these reproductive functions in female rats has allowed to explore the different mechanisms of progesterone action in the brain. It has allowed to demonstrate that new actions of the hormone, which have been observed in particular in vitro systems, are also operational in vivo, and may thus be biologically relevant. This mainly concerns the direct actions of progesterone on receptors of neurotransmitters such as oxytocin and GABA. Activation of the progesterone receptor in the absence of ligand by phosphorylation may also play a role.
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PMID:Genomic and membrane actions of progesterone: implications for reproductive physiology and behavior. 1055 89

The role of luteal oxytocin in the generation of luteolytic episodes of prostaglandin F2alpha at luteolysis was investigated. On day 10 of the cycle Dorset ewes underwent either surgical removal of the corpora lutea (lutectomy; n = 4) or sham operation (sham; n = 4). Lutectomised ewes were then administered progesterone by twice daily i.m. injection in corn oil (20 mg/day) until day 14 when treatment was ceased to simulate luteolysis. The concentration of 13, 14 dihydro-15-keto prostaglandin F2alpha (PGFM) was measured in peripheral blood samples collected at 20-min intervals for 8 h on days 12-16 of the cycle. Progesterone and oestradiol concentrations were similar in the two groups over the whole experimental cycle while oxytocin fell dramatically following lutectomy. No prostaglandin F2alpha release episodes were seen on day 12 or 13, while from days 14-16 both groups exhibited a similar episode frequency (lutectomy 0.9/ewe/8 h; sham 0.8/ewe/8 h). Analysis of episode characteristics revealed lower episode amplitude (p<0.05) but longer episode duration (p<0.05) in the lutectomy group. The results demonstrate that a normal frequency of prostaglandin F2alpha release episodes occurs independently of luteal oxytocin secretion. However, luteal oxytocin is involved in regulating the pattern of release, perhaps causing the release of episodes of the magnitude required for the successful completion of luteolysis.
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PMID:The role of luteal oxytocin in episodic secretion of prostaglandin F2alpha at luteolysis in the ewe. 1061 36

Administration of sequential estradiol (E(2)) and progesterone (P) for 2 weeks followed by withdrawal of P 48 h prior to sacrifice will increase oxytocin (OT) messenger ribonucleic acid (mRNA) levels in the paraventricular and supraoptic nuclei (PVN and SON) of the ovariectomized rat. Progesterone is known to mediate certain of its effects via binding to the gamma aminobutyric acid A (GABA(A)) receptor. E(2) and P are known to modulate the specific binding of the GABA(A) receptor agonist, muscimol, in certain brain regions. In the present study ovariectomized rats received empty or steroid-filled Silastic capsules for 2 weeks according to one of the following schedules: E(2) only (E(2) group) vs. sequential E(2) and P in which P was either removed 48 h prior to killing (E(2)/P- group) or sustained until sacrifice (E(2)/P+ group). [3H]muscimol binding was measured in several brain regions of the animals. The steroid sequence that is known to increase SON OT mRNA (E(2)/P-) selectively decreased [3H]muscimol binding in the SON of ovariectomized rats. The results suggest that changes in GABA(A) receptor binding may, in part, play a role in the regulation of steroid-induced increases in hypothalamic OT expression.
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PMID:An ovarian steroid hormone regimen that increases hypothalamic oxytocin expression alters [3H] muscimol binding in the hypothalamic supraoptic nucleus of the female rat. 1070 May 77

This experiment tested the hypothesis that opioid antagonists could influence the timing of the onset and progress of parturition in the pig. Primiparous pigs (gilts) received a jugular catheter on Days 104 to 106 of pregnancy. At 1400 h on Day 112 the gilts received 10 mg PGF2alpha, i.m. to induce parturition. At 1000 h on Day 113 (i.e., 20 h later) gilts received either saline (n=6), 1 mg/kg, i.v. naltrexone (n=4) or 1 mg/kg, i.v. naloxone (n=5). Blood samples were taken daily from Days 108 to 116. On Day 113, blood samples were taken hourly from 0500 to 0900 h and then every 30 min until 2400 h, or until the birth of the last piglet (BLP) (whichever was sooner) and assayed for progesterone, oxytocin (OT), cortisol and PRL. Additional blood samples for OT and cortisol assay were taken every minute from 0930 to 1100 h on Day 113 and for 30 min during parturition. Naloxone, but not naltrexone, delayed the onset of parturition relative to saline controls (by 14 h 21 min; P<0.05). Duration of parturition and rate of births were not significantly affected by treatment. Mean plasma OT increased in the 4 h following naloxone but not saline treatment, during which time OT plasma pulse amplitude was reduced in naloxone and naltrexone-treated animals relative to saline treated controls. The PRL secretion rose following treatment in saline treated animals, consistent with approaching parturition, but failed to rise in opioid antagonist treated animals. Progesterone concentrations remained elevated in naloxone-treated animals for longer than in the other groups. These data suggest that a rapid change in overall effect of parenteral administration of naloxone to parturient pigs occurs from delaying its onset when administered as in these experiments, to facilitating its progress when given during parturition (earlier experiments). The delay of onset of parturition may be mediated by interference with hypothalamic control of OT or PRL release.
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PMID:The timing of parturition in the pig is altered by intravenous naloxone. 1073 Sep 79

Parturition is driven by a pulsatile pattern of oxytocin secretion, resulting from burst firing activity of supraoptic oxytocin neurones and reflected by induction of Fos expression. Rats were injected with progesterone on day 20 of pregnancy to investigate the role of the decreasing progesterone:ratio oestrogen ratio, which precedes delivery, in the activation of supraoptic neurones. Progesterone delayed the onset of birth by 28 h compared with vehicle (control) and prolonged the duration of delivery, which was overcome by pulsatile injections of oxytocin, indicating that the slow delivery may reflect impaired oxytocin secretion. Parturient rats pretreated with progesterone had fewer Fos immunoreactive nuclei in the supraoptic nucleus than did parturient rats pretreated with vehicle. The number of Fos immunoreactive nuclei was not restored after oxytocin injection, indicating that appropriate activation of oxytocin neurones is impaired by progesterone and also that there is a lack of stimulatory afferent drive. Fos expression increased in the nucleus of the tractus solitarius during parturition in rats pretreated with either vehicle or progesterone, but not in rats that had been pretreated with progesterone and induced with oxytocin, indicating that this input was inhibited. Endogenous opioids inhibit oxytocin neurones in late pregnancy and the opioid antagonist, naloxone, increases Fos expression in supraoptic nuclei by preventing inhibition. However, progesterone attenuated naloxone-induced Fos expression in the supraoptic nucleus in late pregnancy and naloxone administered during parturition did not accelerate the duration of births delayed by progesterone administration, indicating that progesterone does not act by hyperactivation of endogenous opioid tone. RU486, a progesterone receptor antagonist, enhanced supraoptic neurone Fos expression in late pregnancy, indicating progesterone receptor-mediated actions. Thus, progesterone withdrawal is necessary for appropriate activation of supraoptic and tractus solitarius neurones during parturition.
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PMID:Effect of progesterone on the activation of neurones of the supraoptic nucleus during parturition. 1105 52

The amount of beta-endorphin-like immunoreactivity (beta-END-LI) in porcine corpora lutea from several stages of the oestrous cycle and the effects of progesterone, oxytocin, and prolactin on beta-END-LI secretion in vitro by luteal cells were studied. Porcine corpora lutea obtained on days 1-5, 6-10, 11-13, 14-18, and 19-21 of the cycle were used to prepare extracts for beta-END-LI determination. Additionally, corpora lutea from days 11-13 and 14-18 were enzymatically dissociated and isolated luteal cells were used for further study of beta-endorphin secretion in vitro. Cells were cultured in serum-free defined M 199 medium (106 cells/ml) at 37 degrees C under 5% CO2 in air, for 12 h. The influences of the following factors on beta-END-LI secretion by luteal cells were tested: progesterone (10-9, 10-7 and 10-5 M), oxytocin (0.01, 0.1, 1 and 10 ng/ml), and prolactin (0.1, 1, 10 and 100 ng/ml). The beta-END-LI contents in extracts and media were measured by radioimmunoassay. The tissue concentration of beta-END-LI was lowest on days 1-5 of the cycle (0.35 +/- 0.03 ng/g wet tissue). Subsequently, it constantly increased to the highest value on days 14-18 (16.58 +/- 0.52 ng/g wet tissue) and on days 19-21 it declined (11.10 +/- 0.52 ng/g wet tissue). Progesterone at a low dose (10-9 M) resulted in significant (p < 0.05) increases and decreases in beta-END-LI secretion by luteal cells from days 11-13 and 14-18, respectively. Higher doses of progesterone (10-7 and 10-5 M) had no effect on beta-END-LI release, compared with the control group. All dose-levels of oxytocin used decreased beta-END-LI secretion by luteal cells on days 11-13 and 14-18 of the cycle. Prolactin at doses of 0.1 and 1 ng/ml on days 11-13, and all doses tested on days 14-18 resulted in decreases in beta-END-LI release from luteal cells. These results document evident changes in beta-END-LI content in the pig corpus luteum during its development and indicate the potential roles of progesterone, oxytocin, and prolactin in luteal cell secretion of beta-END-LI.
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PMID:The content of beta-endorphin-like immunoreactivity in porcine corpus luteum and the potential roles of progesterone, oxytocin and prolactin in the regulation of beta-endorphin release from luteal cells in vitro. 1132 64

Oxytocin is synthesized by magnocellular neurons in the supraoptic and paraventricular nuclei (SON and PVN) and during pregnancy progesterone prevents premature activation of oxytocin neurons. Progesterone receptors (PR) are not detectable in SON oxytocin neurons of non-pregnant rats, so we sought to determine whether they are expressed during pregnancy and parturition. In addition, we examined PR expression in brainstem and hypothalamic regions that have known direct projections to the SON. Neuronal immunoreactive PR (irPR)-labeled nuclei were counted in sections from proestrous virgin, late pregnant (day 21) and parturient rats (90 min from birth onset). IrPR nuclei were not evident in the SON at any stage but irPR expression in the medial preoptic nucleus (MPA) significantly increased in pregnancy and parturition (159% and 189% of proestrous controls, respectively). Other hypothalamic areas did not exhibit a significant change in irPR expression. In the nucleus tractus solitarius (NTS) in the brainstem, there was no significant change in irPR in late pregnancy, but there was a significant reduction in irPR expression at parturition (22% of proestrous controls). Very few NTS neurons immunoreactive for tyrosine hydroxylase (irTH), and thus putatively noradrenergic, contained irPR. These findings taken with evidence that brainstem irTH neurons projecting to the SON are stimulated at parturition, whereas MPA cells projecting to the SON are not, suggest that any direct actions of progesterone or progesterone withdrawal on NTS or SON neurons are not mediated through the classical PR. Upregulation of PR expression in the MPA during pregnancy and parturition may relate to the onset of maternal behavior and/or regulation of GnRH neuronal activity.
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PMID:Progesterone receptor expression in the pregnant and parturient rat hypothalamus and brainstem. 1181 28

The effect of progesterone on oxytocin-induced secretion of prostaglandin (PG) F(2alpha) from bovine endometrial tissue explants was examined. Endometrial tissue from the late luteal phase were preincubated for 20 h in control medium. Explants were then treated for 6 h with control medium, oxytocin (10(-7) M), progesterone (10(-5) M), or both hormones. Oxytocin increased the medium concentration of 13,14-dihydro-15-keto-PGF(2alpha), whereas progesterone completely suppressed the stimulatory effect of oxytocin. In experiment 2, isolated endometrial epithelial cells were incubated with progesterone (10(-5) M), oxytocin (10(-7) M), and combinations of these hormones with or without actinomycin D (1 ng/ml). Only oxytocin stimulated secretion of PGF(2alpha), and this response was suppressed by progesterone. Oxytocin induced a rapid increase in intracellular concentrations of Ca(2+) detected within 1 min of exposure of epithelial cells from the same cows. Progesterone pretreatment diminished this response. In experiment 3, direct effects of progesterone (2 nM-20 microM) on binding of (3)H-oxytocin to the membrane preparation from epithelial cells were determined by saturation analysis. Oxytocin binding was suppressed by progesterone at every dosage tested. Progesterone is capable of suppressing the ability of oxytocin to induce endometrial secretion of PGF(2alpha). This effect appears to be mediated through a direct interference in the interaction of oxytocin with its own receptor.
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PMID:Direct inhibitory effect of progesterone on oxytocin-induced secretion of prostaglandin F(2alpha) from bovine endometrial tissue. 1208 16

The presence of cAMP-dependent protein kinase (PKA) in the plasma membrane compartment and its association with an A-kinase anchoring protein (AKAP150) is implicated in mediating cAMP regulatory events in the rat myometrium. The association of PKA with purified myometrial plasma membrane declined gradually between Day 16 and Day 21 of gestation, with a decrease of 53% +/- 11% of the catalytic subunit and of 61% +/- 7% of the regulatory subunit at Day 21 compared with Day 19. To determine the role of progesterone in this association, pregnancy was prolonged by administration of progesterone or shortened by administration of the antiprogestin RU486. Progesterone treatment maintained PKA association with plasma membrane at Day 21 at 123% +/- 23% (catalytic subunit) and 92% +/- 4% (regulatory subunit) of Day 19 levels. In contrast, protein phosphatase 1, protein phosphatase 2B, phospholipase Cbeta(3), and AKAP150 concentrations in the plasma membrane did not change over this interval or with progesterone treatment. Changes in PKA coimmunoprecipitated with membrane-associated AKAP150 paralleled those in total plasma membrane on Days 19 and 21 and on Day 21 following progesterone treatment. In contrast, plasma membrane PKA catalytic and regulatory subunits decreased by 20 h after RU486 injection on Day 15 of pregnancy to levels resembling those on Day 21. These data indicate that progesterone prevents the decline in PKA associated with myometrial plasma membrane and with AKAP150 in the pregnant rat. The decrease in membrane-bound PKA between Days 19 and 21 and after RU486 treatment precedes the onset of parturition in both experimental paradigms. The loss of plasma membrane PKA may be critical for the decrease in the inhibitory effect of cAMP on oxytocin-induced phosphatidylinositide turnover that occurs near the end of pregnancy and may contribute to enhanced myometrial contractile responsiveness near term.
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PMID:Progesterone prevents the pregnancy-related decline in protein kinase A association with rat myometrial plasma membrane and A-kinase anchoring protein. 1213 3

The presented overview gives clear evidence for steroids as local regulators of follicular and luteal activity. In the follicle, estrogen receptor-alpha (ERalpha) and ERbeta expression are demonstrated in cow, ewe and pig. Besides species specific effects in general, there is evidence that estradiol-17beta (E(2)) exerts a dose-dependent inhibition on the secretion of progesterone (P(4)) by both theca interna cells (TI) and granulosa cells (GC). GC enhance the ability of the TI to produce androstendione by supplying them with progestin precursor. Androgen produced by TI enhances the ability of the GC to make E(2), and high concentrations of E(2) in the preovulatory follicle inhibit 3beta-HSD in both TI and GC and thus, may promote the use of the pathway Delta(5) for TI androgen production. The authors suggest that E(2) acts within the follicle to exert positive feedback on androgen and E(2) production, and exerts mitotic and anti-atretic or anti-apoptotic effects on follicular cells. Parts of the E(2)-mediated local action are regulated by stimulating effects on hormone receptors (LH, FSH, oxytocin). Gap junctions permit transfer of nutrients and cytokines to and from the avascular GC and oocyte, and formation is stimulated by estrogens. In bovine corpus luteum (CL) there is evidence that P(4) may directly regulate the production of P(4), oxytocin and prostaglandins (PGs) in a cycle dependent fashion. In most of domestic animal species, there is clear evidence for CL production of E(2) with clear stimulatory and luteotropic effects on P(4), and an intraluteal circuit that involves paracrine effects of E(2), oxytocin and PGF(2alpha) (especially in pigs). In contrast, there are species (ruminants, mares) in which the evidence for important local effects of E(2) is less clear, although expression of ERalpha, ERbeta and progesterone receptor (PR) is documented. Progesterone is very important for the regulation of CL lifetime by effects on the endometrium and release of the luteolytic signal PGF(2alpha). In conclusion, steroids as local regulators of ovarian activity are now documented and may stimulate further research in this field.
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PMID:Steroids as local regulators of ovarian activity in domestic animals. 1214 26


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