Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P01189 (beta-endorphin)
21,003 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The present studies were undertaken to examine the influence of mu (beta-endorphin, DAMGO, FK 33-824), delta (met-enkephalin, leu-enkephalin, DPLPE) and kappa opioid receptor agonists (dynorphin A, dynorphin B, U 50488) used at different doses (1-1000 nM) alone and in combination with LH (100 ng/ml) on steroidogenesis in porcine granulosa cells derived from large follicles. The effects of mu, delta and kappa receptor agonists on both basal and LH-induced progesterone (P4) secretion were negligible. Agonists of mu opioid receptors reduced basal androstenedione (A4), testosterone (T) and oestradiol (E2) release. Co-treatment with LH entirely abolished the inhibitory effect of these agonists on A4 and E2 secretion and resulted in an increase in T release. The addition of delta receptor agonists was followed by a decrease in basal A4, T and E2 secretion. The cells incubated in the presence of LH increased the androgen production and abrogated the inhibitory effect of delta agonists on E2 output. Basal A4, T and E2 release was also suppressed by kappa receptor agonists. The presence of LH in culture media extended the inhibitory effect of these opioids on E2 output and caused either abolition of the inhibitory influence of kappa agonists or even augmentation of both androgen release in response to the opioids. In conclusion, these data support the involvement of three major types of opioid receptors in the regulation of porcine granulosa cell steroidogenesis.
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PMID:The influence of opioid peptides on steroidogenesis in porcine granulosa cells. 1512 17

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.
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PMID:Involvement of opioid receptor subtypes in both stimulatory and inhibitory effects of the opioid peptides on prolactin secretion during pregnancy. 1517 35

Using a pharmacological approach, we explored potential mechanisms for the regulation of prolactin secretion by opioid peptides at the end of pregnancy in rats. On day 19 of pregnancy, intracereboventricular administration of the mu-opioid receptor agonist (D-Ala2, NMe-Phe4, Gly-ol5)-enkephalin (DAMGO) or beta-endorphin (beta-END) induced a dose-related increase in serum prolactin levels 30 min later. Pretreatment with the opioid antagonist naloxone abolished the increase induced by DAMGO injection. At lower doses, DAMGO and beta-END did not modify the 3,4-dihydroxyphenylacetic acid/dopamine ratio, but at higher doses, the mu-agonists evoked a significant increase of the dopaminergic activity as compared with saline control. The time course of the effects of beta-END (2.5 microg/rat) showed a higher increase in serum prolactin levels at 15 min than at 30 min after treatment. The 3,4-dihydroxyphenylacetic acid/dopamine ratio increased 15 min after beta-END administration and was even higher 30 min later. Neither the selective kappa-agonist U50,488H nor the selective delta-agonist (D-Pen2, D-Pen5)- enkephalin were able to modify the serum prolactin levels at the doses studied. To evaluate potential neurotransmitters involved in the regulation of prolactin secretion at the end of pregnancy, we combined the administration of serotoninergic or GABAergic antagonists with the opioid agonist DAMGO. The serotonin 5-HT2 receptor antagonist ketanserin increased the serum prolactin levels and potentiated the effect of DAMGO. The intracerebroventricular administration of SR-95531 did not modify the serum prolactin concentration under basal conditions, but partially prevented the increase induced by DAMGO injection. The intracerebroventricular administration of the GABA(B) receptor antagonist phaclofen had no effect on the serum prolactin levels either in naive or DAMGO-treated rats. The present results support the proposal that activation of mu-opioid receptors stimulates prolactin secretion at the end of pregnancy. Although the exact mechanisms by which the opioid system modulates prolactin secretion at the end of pregnancy are unclear, these results suggest an interaction of the opioidergic system with serotoninergic and GABAergic systems, without ruling out a direct or indirect action on dopaminergic neurons. In conclusion, the opioid system may regulate prolactin secretion at the end of pregnancy through either stimulatory (present results) or inhibitory actions previously described.
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PMID:Neurotransmitters involved in the opioid regulation of prolactin secretion at the end of pregnancy in rats. 1534 Feb 48

Endomorphin-1 (EM-1) and endomorphin-2 (EM-2) are two highly selective mu-opiate receptor agonists. We recently demonstrated that EM-1 and EM-2 have a saturable transport system from brain-to-blood in vivo. Since the endothelial cells are the main component of the non-fenestrated microvessels of the blood-brain barrier (BBB), we examined whether these endogenous tetrapeptides have a saturable transport system in cultured cerebral endothelial cells. EM-1 and EM-2 binding and transport were studied in a transwell system in which primary mouse endothelial cells were co-cultured with rat glioma cells. We found that binding of both endomorphins was greater on the basolateral than the apical cell surface. Flux of EM-1 and EM-2 occurred predominantly in the basolateral to apical direction, each showing self-inhibition with an excess of the respective endomorphin. Transport was not influenced by the addition of the P-glycoprotein inhibitor, cyclosporin A. Neither the mu-opiate receptor agonist DAMGO nor the delta-opiate receptor agonist DPDPE had any effect on the transport. Thus, the results show that a saturable transport system for EM-1 and EM-2 occurs at the level of endothelial cells of the BBB, and unlike beta-endorphin and morphine, P-glycoprotein is not needed for the brain-to-blood transport. Cross-inhibition of the transport of each endomorphin by the other suggests a shared transport system that is different from mu- or delta-opiate receptors. As endormorphins are mainly produced in the CNS, the presence of the efflux system at the BBB could play an important role in pain modulation and neuroendocrine control.
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PMID:Endomorphins exit the brain by a saturable efflux system at the basolateral surface of cerebral endothelial cells. 1534 52

In contrast to endogenous opioids, the highly addictive drug morphine activates the mu-opioid receptor without causing its rapid endocytosis. It has recently been reported that coapplication of low concentrations of [d-Ala(2),N-Me-Phe(4),Gly(5)-ol]-enkephalin (DAMGO) facilitates the ability of morphine to stimulate mu-opioid receptor endocytosis and prevents the development of morphine tolerance in rats. To investigate the clinical relevance of this finding for analgesic therapy, the endocytotic efficacies of a series of clinically used opioids were determined, and the effect of a combination of these drugs with morphine on the mu-opioid receptor endocytosis in receptor-expressing human embryonic kidney (HEK) 293 cells was quantified. The combination of morphine and opioid drugs with high endocytotic efficacies (e.g., DAMGO, etonitazene, sufentanil, beta-endorphin, piritramide, or methadone) did not result in a facilitation of morphine-mediated endocytosis but rather in a decrease of the receptor endocytosis mediated by the tested opioid drugs. These findings demonstrate a partial agonistic effect of morphine on the agonist-induced receptor endocytosis. Moreover, we demonstrated that the endocytotic potencies of opioid drugs are negatively correlated with their ability to cause receptor desensitization and opioid tolerance in HEK 293 cells. These results strongly support the hypothesis that mu-opioid receptor endocytosis counteracts receptor desensitization and opioid tolerance by inducing fast receptor reactivation and recycling. In addition, it is shown that agonist-induced receptor endocytosis facilitates the compensatory up-regulation of the cAMP pathway, a cellular hallmark of opioid withdrawal. Our findings suggest that opioids with high endocytotic efficacies might cause reduced opioid tolerance but can facilitate compensatory mechanisms, resulting in an enhanced opioid dependence.
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PMID:Receptor endocytosis counteracts the development of opioid tolerance. 1549 9

The occurrence of systematic diurnal variations in pain thresholds has been demonstrated in human. Salivary melatonin levels change following acute pain when other factors that could explain the change have been removed or controlled. Melatonin-induced analgesia is blocked by naloxone or pinealectomy. By using selective radioligands [3H]-DAMGO, [3H]-DPDPE, [3-U69593, and 3H]-nociceptin, we have shown that the bovine pinealocytes contain delta and mu, but not kappa or ORL1 opioid receptor subtypes. In the present study, by using melatonin receptor agonists (6-chloromelatonin or 2-iodo-N-butanoyl-5-methoxytryptamine) or melatonin receptor antagonist (2-phenylmelatonin), we have shown that these agents do not compete with opioid receptor subtypes. However, we observed a time-dependent release of beta-endorphin an endogenous opioid peptide, by melatonin from mouse pituitary cells in culture. Hence, it is suggested that melatonin exerts its analgesic actions not by binding to opioid receptor subtypes but by binding to its own receptors and increasing the release of beta-endorphin.
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PMID:Melatonin exerts its analgesic actions not by binding to opioid receptor subtypes but by increasing the release of beta-endorphin an endogenous opioid. 1563 42

Neurotransmitters are stimulatory as well as inhibitory regulators of cell migration. Angiotensin is such an inhibitory regulator of the SDF-1-induced migration of cytotoxic T lymphocytes, as we have investigated by time-lapse videomicroscopy and computer-assisted cell tracking. For angiotensin II, the most effective form of angiotensin for the inhibition of migration, two G protein-coupled receptors are known, which both downregulate the activity of the adenylyl cyclase via activation of inhibitory G proteins. This downregulation of the enzymatic activity is a key signaling event for the inhibition of T lymphocyte and tumor cell migration, while stimulatory neurotransmitters--for example, norepinephrine--cause an activation of the adenylyl cyclase. Similar to angiotensin, the SDF-1-induced migration of cytotoxic T lymphocytes was inhibited by DAMGO, a specific agonist for the mu-opioid receptor, which is coupled to inhibitory G proteins, too. More interestingly, DAMGO downregulated the met-enkephalin-induced migration of MDA-MB-468 breast carcinoma cells. Met-enkephalin binds to the delta-opioid receptor and, with lower affinity, to the mu-opioid receptor. Since the delta-opioid receptor also activates inhibitory G proteins, the promigratory effect of met-enkephalin is caused by an intracellular signaling distinct from the engagement of each opioid receptor alone. In summary, the dual control of the adenylyl cyclase functions as an integrator of stimulatory and inhibitory signals for T lymphocyte and tumor cell migration, which are delivered by neurotransmitters and other signal substances that bind to G protein-coupled receptors.
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PMID:Inhibition of cell migration via G protein-coupled receptors to opioid peptides and angiotensin. 1565 Feb 57

Two full-length cDNAs, encoding delta (delta) and mu (mu) opioid receptors, were cloned from the brain of the rough-skinned newt Taricha granulosa, complementing previous work from our laboratory describing the cloning of newt brain kappa (kappa) and ORL1 opioid receptors. The newt delta receptor shares 82% amino acid sequence identity with a frog delta receptor and lower (68-70%) identity with orthologous receptors cloned from mammals and zebrafish. The newt mu receptor shares 79% sequence identity with a frog mu receptor, 72% identity with mammalian mu receptors, and 66-69% identity with mu receptors cloned from teleost fishes. Membranes isolated from COS-7 cells transiently expressing the newt delta receptor possessed a single, high-affinity (Kd = 2.4 nM) binding site for the nonselective opioid antagonist [3H]naloxone. In competition binding assays, the newt delta receptor displayed highest affinity for Met-enkephalin, relatively low affinity for Leu-enkephalin, beta-endorphin, and [D-penicillamine, D-penicillamine] enkephalin (DPDPE) (a delta-selective agonist in mammals), and very low affinity for mu-, kappa-, or ORL1-selective agonists. COS-7 cells expressing the newt mu receptor also possessed a high-affinity (Kd = 0.44 nM) naloxone-binding site that showed highest affinity for beta-endorphin, moderate-to-low affinity for Met-enkephalin and Leu-enkephalin and DAMGO (a mu-selective agonist in mammals), and very low affinity for DPDPE and kappa- or ORL1-selective agonists. COS-7 cells expressing either receptor type (delta or mu) showed very high affinity (Kd = 0.1-0.3 nM) for the nonselective opioid antagonist diprenorphine. Taricha granulosa expresses the same four subtypes (delta, mu, kappa, and ORL1) of opioid receptors found in other vertebrate classes, but ligand selectivity appears less stringent in the newt than has been documented in mammals.
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PMID:Delta and mu opioid receptors from the brain of a urodele amphibian, the rough-skinned newt Taricha granulosa: cloning, heterologous expression, and pharmacological characterization. 1637 1

We investigated the ability of the activated mu-opioid receptor (MOR) to differentiate between myristoylated G(alphai1) and G(alphaoA) type G(alpha) proteins, and the maximal activity of a range of synthetic and endogenous agonists to activate each G(alpha) protein. Membranes from HEK293 cells stably expressing transfected MOR were chaotrope extracted to denature endogenous G-proteins and reconstituted with specific purified G-proteins. The G(alpha) subunits were generated in bacteria and were demonstrated to be recognised equivalently to bovine brain purified G(alpha) protein by CB(1) cannabinoid receptors. The ability of agonists to catalyse the MOR-dependent GDP/[(35)S]GTP(gamma)S exchange was then compared for G(alphai1) and G(alphaoA). Activation of MOR by DAMGO produced a high-affinity saturable interaction for G(alphaoA) (K(m)=20+/-1 nM) but a low-affinity interaction with G(alphai1) (K(m)=116+/-12 nM). DAMGO, met-enkephalin and leucine-enkephalin displayed maximal G(alpha) activation among the agonists evaluated. Endomorphins 1 and 2, methadone and beta-endorphin activated both G(alpha) to more than 75% of the maximal response, whereas fentanyl partially activated both G-proteins. Buprenorphine and morphine demonstrated a statistically significant difference between the maximal activities between G(alphai1) and G(alphaoA). Interestingly, DAMGO, morphine, endomorphins 1 and 2, displayed significant differences in the potencies for the activation of the two G(alpha). Differences in maximal activity and potency, for G(alphai1) versus G(alphaoA), are both indicative of agonist selective activation of G-proteins in response to MOR activation. These findings may provide a starting point for the design of drugs that demonstrate greater selectivity between these two G-proteins and therefore produce a more limited range of effects.
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PMID:Differential activation of G-proteins by mu-opioid receptor agonists. 1641 3

Both obesity and increased endorphin production are associated with an increase in blood pressure. We have previously demonstrated that the acute and chronic central nervous system (CNS) administration of beta-endorphin can increase or decrease blood pressure, respectively. Also high fat (HF) diet-induced obesity is associated with increased hypothalamic mu opioid receptors and increased blood pressure in response to ss-endorphins. In this study we investigated the effect of high fat diet-induced obesity on blood pressure, heart rate, and physical activity as well as determined the effect of mu opioids in unanesthetized rats. Male Wistar rats were implanted with a radiotelemetry transmitter to record cardiovascular dynamics and activity. They were fed either a HF diet (HF; 59% fat by caloric content, soy bean oil) or regular chow (control; 12% fat by caloric content). HF rats had higher body weights and their total caloric intake was greater than controls. The systolic blood pressures (SBP) were greater in the HF-obese rats. After 12-13 weeks the rats were infused chronically with a mu opioid agonist (D)-Ala(2), N-Me-Phe(4), Gly(5)-ol]-ENKEPHALIN (DAMGO) or a mu opioid antagonist ss-funaltrexamine (beta-FNA) via intracerebroventricular cannula. DAMGO increased the SBP and heart rate in controls, but not in HF obese rats. DAMGO did not affect physical activity; beta-FNA decreased SBP and increased HR in controls. We concluded that HF rats consumed more calories, gained more weight, and had higher SBP. However, the responsiveness to the mu-receptor agonist was not higher in the HF rats.
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PMID:The effect of high fat-induced obesity on cardiovascular and physical activity and opioid responsiveness in conscious rats. 1654 39


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