UNIPROT:P01189 - FACTA Search

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 endogenous peptides endomorphins 1 and 2 are newly isolated, potent, and selective mu-opioid receptor agonists. In the present study, responses to the endomorphin peptides were investigated in the systemic vascular bed of the rabbit. Endomorphins 1 and 2 induced dose-related decreases in systemic arterial pressure when injected in doses of 1-30 nmol/kg i.v. In terms of relative vasodepressor activity, endomorphins 1 and 2 were similar to the ORL1 receptor ligand, nociceptin (Orphanin FQ), and met-enkephalin in decreasing systemic arterial pressure. Vasodepressor responses to endomorphins 1 and 2 were inhibited by the opioid receptor antagonist, naloxone, in a dose of 2 mg/kg i.v. These results demonstrate that endomorphins 1 and 2 have significant naloxone-sensitive, vasodepressor activity in the rabbit.
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PMID:The endogenous mu-opioid receptor agonists endomorphins 1 and 2 have novel hypotensive activity in the rabbit. 920 97

The heptadecapeptide nociceptin, also known as Orphanin FQ, is a newly-discovered endogenous ligand for the opioid-like G-protein-coupled receptor ORL1. In the present study, in order to investigate the structure-activity relationship for nociceptin, responses to nociceptin, [Tyr1]-nociceptin, nociceptin-(2-17), nociceptin-(1-11), and nociceptin-(1-7) were compared in the hindquarters vascular bed of the rat. Injections of nociceptin (1-30 nmol), [Tyr1]-nociceptin (1-30 nmol), and met-enkephalin (10-300 nmol) induced dose-related decreases in hindquarters perfusion pressure, whereas injections of similar volumes of the saline vehicle had no effect. In terms of relative vasodilator activity, [Tyr1]-nociceptin was similar to nociceptin, and these peptides were approximately 10-fold more potent than met-enkephalin in decreasing hindquarters perfusion pressure. In contrast, nociceptin-(2-17), nociceptin-(1-11), and nociceptin-(1-7) had no significant effect on hindquarters perfusion pressure when injected into the perfusion circuit in doses up to 100 nmol. The decreases in hindquarters perfusion pressure in response to [Tyr1]-nociceptin and nociceptin were not altered by the opioid receptor antagonist naloxone at a time when responses to met-enkephalin were reduced significantly. The results of the present study show that [Tyr1]-nociceptin and nociceptin have similar vasodilator activity in the hindquarters vascular bed and that responses to this novel nociceptin analog are not mediated by the activation of a naloxone-sensitive opioid receptor and are not dependent on the presence of the amino acid Phe at the N-terminus of the nociceptin sequence. Moreover, the results of the present study show that nociceptin-(2-17), nociceptin-(1-11), and nociceptin-(1-7) have no activity in the hindquarters vascular bed of the rat when injected in doses up to 100 nmol.
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PMID:[Tyr1]-nociceptin has naloxone-insensitive vasodilator activity in the hindquarters vascular bed of the rat. 941 81

The endogenous opioid peptides, endomorphin 1 and 2, are newly isolated, potent, and selective mu-opioid receptor agonists. In the present study, responses to endomorphin 1 and 2 were investigated in the systemic vascular bed of the rat. Endomorphin 1 and 2 induced dose-related decreases in systemic arterial pressure when injected in doses of 1-30 nmol/kg i.v. In terms of relative vasodepressor activity, endomorphin 1 and 2 were approximately equipotent with each other and with the ORL1 ligand, nociceptin (orphanin FQ), and were about 10-fold more potent than met-enkephalin in decreasing systemic arterial pressure. Vasodepressor responses to endomorphin 1 and 2 and met-enkephalin, but not to nociceptin, were inhibited by the opioid receptor antagonist, naloxone. These results demonstrate that endomorphin 1 and 2 produce significant naloxone-sensitive decreases in systemic arterial pressure.
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PMID:Endomorphin 1 and 2, endogenous mu-opioid agonists, decrease systemic arterial pressure in the rat. 951 3

The heptadecapeptide nociceptin, also known as Orphanin FQ, is a newly discovered endogenous ligand for the opioid-like G-protein-coupled receptor ORL1. The present study was undertaken to investigate responses to intracavernosal injections of the nociceptin analog [Tyr1]-nociceptin and to investigate the effects of naloxone on erectile responses in anesthetized cats to [Tyr1]-nociceptin and to nociceptin. Intracavernosal injections of [Tyr1]-nociceptin and of nociceptin in doses of 0.3-30 nmol elicited dose-related increases in cavernosal pressure, which, at the highest dose studied, were comparable to increases induced by the triple-drug standard (papaverine, phentolamine, and prostaglandin E1), a preparation used in the treatment of erectile dysfunction. Responses to [Tyr1]-nociceptin were rapid in onset and had a time course similar to responses to nociceptin. Metenkephalin increased cavernosal pressure, whereas injections of nociceptin-(2-17), dynorphin A, and beta-endorphin did not alter cavernosal pressure. Erectile responses to nociceptin and to [Tyr1]-nociceptin were not altered after administration of the opioid receptor antagonist naloxone at a time when erectile responses to metenkephalin were attenuated. These data show that [Tyr1]-nociceptin and nociceptin have similar naloxone-insensitive erectile activity in the cat.
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PMID:[Tyr1]-nociceptin and nociceptin have similar naloxone-insensitive erectile activity in the cat. 987 26

The heptadecapeptide nociceptin, also known as Orphanin FQ, is a recently discovered endogenous ligand for the opioid-like G-protein coupled receptor, ORL1. In the present study, responses to nociceptin were investigated in isolated pressurized resistance arteries from the rat mesenteric vascular bed. Nociceptin in bath concentrations of 10(-9)-10(-6) M induced concentration-dependent increases in arterial diameter when the artery was precontracted with U46619; and administration of the structurally related opioid agonists, dynorphin A and met-enkephalin, had no effect on arterial diameter. Vasodilator responses to nociceptin were not altered by the opioid receptor antagonist naloxone or by the nitric oxide synthase inhibitor N(omega)-nitro-L-arginine. Responses to nociceptin were not altered by the muscarinic receptor blocking agent atropine or phentolamine, or the calcitonin gene-related peptide (CGRP) receptor antagonist CGRP-(8-37). These data suggest that nociceptin has direct vasodilator activity that is not dependent upon the activation of a traditional opioid receptor, muscarinic or CGRP receptors, an inhibitory effect on the adrenergic nervous system, or the release of nitric oxide in isolated resistance arteries from the rat mesentery.
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PMID:Nociceptin, a novel endogenous ligand for the ORL1 receptor, dilates isolated resistance arteries from the rat. 987 48

The heptadecapeptide, orphanin FQ/nociceptin (OFQ/N), binds with high affinity to the ORL-1/KOR-3 opioid receptor clone, yet binds poorly with traditional opioid receptors. OFQ/N has a complex functional profile with relation to nociceptive processing, displaying pro-nociceptive properties in some studies, acting as an inhibitor of stress-induced analgesia in others, yet producing both spinal and supraspinal antinociceptive actions in other studies. Among the intracerebral sites at which OFQ/N might produce one or more of these actions is the amygdala which has been intimately implicated in both antinociceptive and stress-related responses. Therefore, the present study assessed whether microinjections into the amygdala of equimolar doses of OFQ/N(1-17) or its shorter-chained active fragments, OFQ/N(1-11) or OFQ/N(1-7), would produce analgesia as measured by either reactivity to high-intensity radiant heat or reactivity to electric shock, and produce hyperalgesia as measured by reactivity to lower-intensity radiant heat. OFQ/N(1-17) in the amygdala produced a dose-dependent and time-dependent increase in high-intensity tail-flick latencies with maximal effects observed at a dose range of 0.75-3 nmol, and lesser effects at lower (0.015-0.15 nmol) and higher (5.5-30 nmol) doses. Both OFQ/N(1-11) and OFQ/N(1-7) in the amygdala displayed lower magnitudes of analgesia than OFQ/N(1-17) on this measure, with OFQ/N(1-11) displaying maximal effects at higher (15-30 nmol) doses and OFQ/N(1-7) displaying maximal effects at lower (0.15-1.5 nmol) doses. In contrast to traditional mu and kappa opioids and beta-endorphin, none of the OFQ/N fragments in the amygdala exhibited any analgesic responses on the jump test. Finally, using a low-intensity radiant heat assay capable of detecting hyperalgesic responses, each of the OFQ/N fragments in the amygdala increased tail-flick latencies on this measure. Therefore, OFQ/N fragments appear to exert only analgesic responses in the amygdala with quantitative and qualitative differences relative to traditional opioid agonists.
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PMID:Analgesia elicited by OFQ/nociceptin and its fragments from the amygdala in rats. 1143 Aug 91

1. Whole-cell patch clamp recordings were made from rat rostral ventromedial medulla (RVM) neurons in vitro to investigate the cellular actions of the opioid-like receptor ORL1 (NOP), ligand nociceptin/orphanin FQ and other putative prepronociceptin products. 2. Primary and secondary RVM neurons were identified as responding to the kappa-opioid receptor agonist U-69593 (300 nM to 1 microM) and the mu- and delta-opioid receptor agonist met-enkephalin (10 microM), respectively. Both primary and secondary RVM neurons responded to nociceptin (3 nM to 1 microM) with an outward current that reversed polarity at -115 mV in brain slices and with inhibition of Ca(2+) channel currents in acutely isolated cells. 3. The putative ORL1 antagonist J-113397 (1 microM) produced no change in membrane current and abolished the outward current produced by nociceptin (100 nM). In contrast, Phe(1)psi(CH(2)-NH)Gly(2)]-nociceptin-(1-13)NH(2) (300 nM to 1 microM) alone produced an outward current and partially reduced the outward current produced by nociceptin (300 nM) when co-applied. 4. In brain slices nociceptin (300 nM) reduced the amplitude of evoked GABA(A) receptor-mediated inhibitory postsynaptic currents (IPSCs) but not non-NMDA receptor-mediated excitatory postsynaptic currents (EPSCs). 5. Met-enkephalin (10 microM), but not nociceptin (300 nM), reduced the rate of spontaneous miniature IPSCs in normal external potassium solution (K(+) 2.5 mM). In high external potassium (K(+) 17.5 mM), nociceptin reduced the rate of miniature IPSCs in the presence (Ca(2+) 2.4 mM, Mg(2+) 1.2 mM) but not in the absence of external calcium (Ca(2+) 0 mM, Mg(2+) 10 mM, Cd(2+) 10 microM). Nociceptin and met-enkephalin had no effect on the amplitude of miniature IPSCs. 6. The putative nociceptin precursor products nocistatin (rat prepronociceptin(125-132)) and rat prepronociceptin(154-181) had no effect on membrane currents, evoked IPSCs and evoked EPSCs. 7. These results indicate that nociceptin acts via the ORL1 receptor to directly inhibit both primary and secondary RVM neurons by activating a potassium conductance and by inhibiting calcium conductances. In addition, nociceptin inhibits GABA release within the RVM via a presynaptic Ca(2+)-dependent mechanism. Thus, nociceptin has the potential to exert both disinhibitory and inhibitory effects on neuronal action potential firing within the RVM.
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PMID:Actions of nociceptin/orphanin FQ and other prepronociceptin products on rat rostral ventromedial medulla neurons in vitro. 1148 14

The advance in our understanding of the biogenesis of various endogenous opioid peptides, their anatomical distribution, and the characteristics of the multiple receptors with which they interact open a new avenue for understanding the role of opioid peptide systems in chronic pain. The main groups of opioid peptides: enkephalins, dynorphins and beta-endorphin derive from proenkephalin, prodynorphin and proopiomelanocortin, respectively. Recently, a novel group of peptides has been discovered in the brain and named endomorphins, endomorphin-1 and -2. They are unique in comparison with other opioid peptides by atypical structure and high selectivity towards the mu-opioid receptor. Another group, which joined the endogenous opioid peptide family in the last few years is the pronociceptin system comprising the peptides derived from this prohormone, acting at ORL1 receptors. Three members of the opioid receptor family were cloned in the early 1990s, beginning with the mouse delta-opioid receptor (DOR1) and followed by cloning of mu-opioid receptor (MOR1) and kappa-opioid receptor (KOR1). These three receptors belong to the family of seven transmembrane G-protein coupled receptors, and share extensive structural homologies. These opioid receptor and peptide systems are significantly implicated in antinociceptive processes. They were found to be represented in the regions involved in nociception and pain. The effects of opioids in animal models of inflammatory pain have been studied in great detail. Inflammation in the periphery influences the central sites and changes the opioid action. Inflammation increased spinal potency of various opioid receptor agonists. In general, the antinociceptive potency of opioids is greater against various noxious stimuli in animals with peripheral inflammation than in control animals. Inflammation-induced enhancement of opioid antinociceptive potency is characteristic predominantly for mu opioid receptors, since morphine elicits a greater increase in spinal potency of mu- than of delta- and kappa-opioid receptor agonists. Enhancement of the potency of mu-opioid receptor agonists during inflammation could arise from the changes occurring in opioid receptors, predominantly in affinity or number of the mu-opioid receptors. Inflammation has been shown to alter the expression of several genes in the spinal cord dorsal horn. Several studies have demonstrated profound alterations in the spinal PDYN system when there is peripheral inflammation or chronic arthritis. Endogenous dynorphin biosynthesis also increases under various conditions associated with neuropathic pain following damage to the spinal cord and injury of peripheral nerves. Interestingly, morphine lacks potent analgesic efficacy in neuropathic pain. A vast body of clinical evidence suggests that neuropathic pain is not opioid-resistant but only that reduced sensitivity to systemic opioids is observed in this condition, and an increase in their dose is necessary in order to obtain adequate analgesia. Reduction of morphine antinociceptive potency was postulated to be due to the fact that nerve injury reduced the activity of spinal opioid receptors or opioid signal transduction. Our recent study with endogenous ligands of the mu-opioid receptor, endomorphins, further complicates the issue, since endomorphins appear to be effective in neuropathic pain. Identification of the involved differences may be of importance to the understanding of the molecular mechanism of opioid action in neuropathic pain, as well as to the development of better and more effective drugs for the treatment of neuropathic pain in humans.
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PMID:Opioids in chronic pain. 1169 29

1 Patch clamp recordings were made from periaqueductal grey (PAG) neurons in vitro to investigate the cellular actions of opioids in wild-type C57B16/J mice and mutant mice lacking the first exon of the micro -opioid (MOP) receptor. 2 In wild-type mice, the kappa-(KOP) agonist U-69593 (300 nM) and the mixed micro /delta-opioid agonist met-enkephalin (10 micro M), but not the delta-(DOP) agonist deltorphin (300 nM), reduced the amplitude of evoked GABA(A)-mediated inhibitory postsynaptic currents (IPSCs). Met-enkephalin and U-69593 also reduced the rate of spontaneous miniature IPSCs, but had no effect on their amplitude and kinetics. In micro -receptor-deleted mice, only U-69593 (300 nM) reduced the amplitude of evoked IPSCs. 3 In wild-type mice, the MOP agonist DAMGO (3 micro M) produced an outward current in 76% of the neurons. Deltorphin and U-69593 produced outward currents in 24 and 32% of the neurons, respectively. In micro -receptor-deleted mice, deltorphin and U-69593 produced similar outward currents in 32 and 27% of the neurons, respectively, while DAMGO was without effect. All neurons in both the wild-type and micro -receptor-deleted mice responded with similar outward currents to either the GABA(B) receptor agonist baclofen (10 micro M), or the opioid-like receptor ORL1 (NOP) agonist nociceptin (300 nM). 4 The DAMGO-, deltorphin-, U-69593-, baclofen- and nociceptin-induced currents displayed inward rectification and reversed polarity at -109 to -116 mV. 5 These findings indicate that micro -, delta- and kappa-opioid receptor activation has complex pre- and postsynaptic actions within the mouse PAG. This differs to the rat PAG where only micro -opioid receptor actions have been observed.
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PMID:Cellular actions of opioids on periaqueductal grey neurons from C57B16/J mice and mutant mice lacking MOR-1. 1277 Sep 41

The opioid peptide, Orphanin FQ/nociceptin (OFQ/N(1-17))(,) its active fragments, and a related precursor peptide each produce analgesia following microinjection into the amygdala of rats. OFQ/N(1-17)-induced analgesia elicited from the amygdala is blocked by amygdala pretreatment of either general, mu, kappa, or delta-opioid antagonists even though OFQ/N(1-17) binds poorly to these receptor subtypes, and the antagonists bind poorly to the ORL-1/KOR-3 receptor. Agonists at mu and kappa opioid receptors as well as beta-endorphin each produce analgesia elicited from the amygdala that is blocked by opioid antagonist pretreatment in the ventrolateral periaqueductal gray (vlPAG) of rats. The present study examined whether pretreatment of general and selective opioid antagonists in the vlPAG blocked OFQ/N(1-17)-induced analgesia on the tail-flick test elicited from the amygdala, and whether pretreatment of general and selective opioid antagonists in the amygdala blocked OFQ/N(1-17)-induced analgesia elicited from the vlPAG of rats. OFQ/N(1-17)-induced analgesia elicited from the amygdala was significantly and markedly reduced following vlPAG pretreatment with a dose range of either naltrexone, beta-funaltrexamine (beta-FNA, mu), nor-binaltorphamine (NBNI, kappa) or naltrindole (NTI, delta). In contrast, opioid antagonists administered into misplaced mesencephalic control placements ventral and lateral to the vlPAG actually enhanced OFQ/N(1-17)-induced analgesia elicited from the amygdala. OFQ/N(1-17)-induced analgesia elicited from the vlPAG was significantly and markedly reduced following amygdala pretreatment with naltrexone and NBNI, to a lesser degree by NTI, and was unaffected by beta-FNA. Yet, opioid antagonists administered into misplaced amygdala control placements were generally ineffective in altering OFQ/N(1-17)-induced analgesia elicited from the vlPAG. Latencies were transiently increased by general, but not selective opioid antagonist treatment alone in the amygdala, but not the vlPAG. These data indicate reciprocal and regional interactions between the amygdala and vlPAG in the mediation of OFQ/N(1-17) by classic opioid receptor subtype antagonists in rats.
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PMID:Reciprocal interactions between the amygdala and ventrolateral periaqueductal gray in mediating of Q/N(1-17)-induced analgesia in the rat. 1286 59

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