UMLS:C0030193 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0030193 (pain)
261,466 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The aim of the present study is to investigate the effects of orphanin FQ (OFQ) microinjected into the nucleus raphe magnus (NRM) and the nucleus reticularis gigantocellularis (NGC) on pain modulation. The tail-flick latency (TFL) was used as a behavioral index of nociceptive responsiveness. The result showed microinjection of OFQ into the NRM significantly increased the TFL, whereas microinjection of OFQ into the NGC decreased the TFL, suggesting the analgesic effect of OFQ in the NRM and the hyperalgesic effect of OFQ in the NGC. As there are three classes of putative pain modulating neurons in the rostral ventromedial medulla (RVM), the hyperalgesic or analgesic effect of OFQ in the RVM might depend upon the different class of the neurons being acted.
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PMID:Distinct effect of orphanin FQ in nucleus raphe magnus and nucleus reticularis gigantocellularis on the rat tail flick reflex. 1140 60

Nociceptin or orphanin FQ (N/OFQ) is the natural ligand of the opioid receptor-like 1 receptor (ORL-1), which has been also classified as the fourth member of the opioid family of receptors and named OP(4). Elucidation of the biological role of N/OFQ has been hampered by the lack of compounds that selectively block the OP(4) receptor. Recently, a N/OFQ derivative, [Nphe(1)]N/OFQ(1-13)NH(2), has been found to possess OP(4) antagonistic properties both in vitro and in vivo models. We investigated its spinal effect in the chronic constriction injury of the sciatic nerve in the rat, a model relevant to neuropathic pain in humans. Intrathecal (i.t.) administration of N/OFQ (0.2--20 nmoles) dose-dependently reversed mechanical allodynic-like behavior, while [Nphe(1)]N/OFQ(1-13)NH(2) (20--120 nmoles, i.t.) was ineffective on its own. [Nphe(1)]N/OFQ(1-13)NH(2) (60--120 nmoles, i.t.) antagonized N/OFQ (about 80% of reduction) but did not modify the activity of morphine (20 nmoles, i.t.). These results further support, for the first time in a chronic model of pain, the specific antagonistic profile of [Nphe(1)]N/OFQ(1-13)NH(2)vs the OP(4) receptor. This pseudopeptide is an interesting pharmacological tool to better clarify the role of N/OFQ in pathophysiology.
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PMID:The putative OP(4) antagonist, [Nphe(1)]nociceptin(1-13)NH(2), prevents the effects of nociceptin in neuropathic rats. 1142 87

Nociceptin, a neuropeptide 17 amino acid residues in length, is the first novel bioactive substance to have been discovered by functional genomics. Nociceptin was isolated from a rat brain extract as the endogenous ligand to an orphan receptor, ORL1 (Opioid Receptor-Like 1), structurally akin to opioid receptors, whose cDNA had been cloned from a human brain stem library. The peptide is processed from a larger precursor polypeptide, prepro-nociceptin, which is widely distributed in the nervous system. Nociceptin is primarily an inhibitory neuropeptide that acts on neurons to depress synaptic transmission. Nociceptin's wide spectrum of pharmacological actions hints at several potential therapeutic applications for ORL1 receptor agonists and/or antagonists, particularly for treating pain states, stress and anxiety, cognitive defects, and drug addiction. A major challenge is now the discovery and pharmacological in vivo profiling of ORL1 receptor ligands that are active by medically practical routes of administration.
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PMID:[Fom orphan receptor to novel neuropeptide: an example of reverse pharmacology]. 1147 99

The isolation of an opioid receptor-related clone soon led to the isolation and characterization of a new neuropeptide, termed orphanin FQ or nociceptin (OFQ/N). This heptadecapeptide binds to the NOP(1) (previously termed ORL1) receptor with exceedingly high affinity, but does not interact directly with classical opioid receptors. Functionally, the actions of OFQ/N are diverse and intriguing. Most work has focused upon pain mechanisms, where OFQ/N has potent anti-analgesic actions supraspinally and analgesic actions spinally. Other OFQ/N activities are less clear. The diversity of responses might reflect NOP(1) receptor heterogeneity, but this remains to be established. The actions of this neurochemical system may also be uniquely dependent on contextual factors, both genetic and environmental. This review will address the molecular biology and behavioral pharmacology of OFQ/N and its receptor.
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PMID:The molecular and behavioral pharmacology of the orphanin FQ/nociceptin peptide and receptor family. 1154 35

Nociceptin/orphanin FQ (NC) and its receptor (OP4) have been implicated in pain transmission. The aim of the present study was to investigate the role of the NC/OP4 system in stress-induced analgesia (SIA). The tail-withdrawal assay was performed in mice stressed by forced swimming in water at 15 degrees C (high severity swims) or 32 degrees C (low severity swims). High severity swims produced a naloxone-insensitive antinociceptive effect which was blocked by supraspinal NC (1 nmol). The selective OP4 receptor antagonist, [Nphe1]NC(-13)NH2 (30 nmol), was inactive by itself, but prevented the effect of NC. Low severity swims produced a milder analgesic effect that was partially antagonized by naloxone, completely blocked by NC and potentiated by [Nphe1]NC(-13)NH2. These findings confirm the anti-analgesic role of supraspinal NC and suggest that endogenous NC signaling counteracts the opioid component of SIA.
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PMID:Endogenous nociceptin signaling and stress-induced analgesia. 1156 27

Cysteine proteinase found in the spinal cord of rat, called nociceptin-converting enzyme (NCE), is competitively inhibited by dynorphin A and its fragment des-[Tyr(1)]-DYN A. This proteinase converts orphanin FQ/nociceptin (OFQ/N) to two major fragments: OFQ/N(1-11) and further OFQ/N(1-6) with analgesic properties. Dynorphin A at the concentration of 10 microM increases K(M) from 15.0 to 55.9 microM. The calculated K(i) for this interaction was estimated at 3.7 microM. This observation may suggest an interaction between opioid and nociceptive systems which may be affected by the balance between opioid and antiopioid systems. This balance between particular OFQ/N sequences that are derived from the same precursor and regulated by proteinases may play an important role in pain. Interestingly, dynorphin B does not reveal a similar action on the NCE.
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PMID:Dynorphin A inhibits nociceptin-converting enzyme from the rat spinal cord. 1157 54

Endomorphin-1 is a novel endogenous opioid peptide with high affinity and selectivity for the mu-opioid receptor. Earlier results have shown that it causes antinociception in different pain tests, but its effect is short-lasting. The purpose of the present study was to investigate the antinociceptive potency of continuously administered endomorphin-1 on carrageenan-induced thermal hyperalgesia by means of a paw withdrawal test in awake rats. The possible interaction between endomorphin-1 and the C-terminal octapeptide of the novel endogenous peptide nocistatin (bPNP-3-8P) was examined in the same experimental set-up. Continuous administration of endomorphin-1 (0.1, 0.3, 1 or 2 microg/min for 60 min) did not influence the paw withdrawal latencies of the normal paws. On the inflamed side, endomorphin-1 dose-dependently decreased the thermal hyperalgesia during continuous administration. The cessation of administration resulted in a gradual decrease in the antinociceptive effect of endomorphin-1. bPNP-3-8P (0.003-30 microg, administered cumulatively) significantly decreased the heat hyperalgesia at higher doses (3 and 30 microg). Continuous administration of bPNP-3-8P (0.03, 0.1 and 1 microg/min) did not potentiate the antinociceptive effect of endomorphin-1; instead, it even shortened the duration of its effect. The results demonstrate that continuous administration of endomorphin-1 is an effective method of inhibiting thermal hyperalgesia in rats. Furthermore, the fragment bPNP-3-8P itself has low antinociceptive potency and does not potentiate the antinociceptive effect of endomorphin-1 under these circumstances.
Pain 2001 Oct
PMID:Antinociceptive effect of continuous intrathecal administration of endomorphin-1. 1157 42

The orphanin peptide system, although structurally similar to the endogenous opioid family of peptides and receptors, has been established as a distinct neurochemical entity. The distribution of the opioid receptor-like (ORL1) receptor and its endogenous ligand orphanin FQ (OFQ) in the central nervous system of the adult rat has been recently reported, and although diffusely disseminated throughout the brain, this neuropeptide system is particularly expressed within stress and pain circuitry. Little is known concerning the normal expression of the orphanin system during gestation, nor how opiate or stress exposure may influence its development. Using in situ hybridization techniques, the present study was undertaken to determine the normal pattern of expression of ORL1 mRNA in the human and rat brain at various developmental stages. Rat embryos, postnatal rat brains and postmortem human brains were collected, frozen and cut into 15 microm coronal sections. In situ hybridization was performed using riboprobes generated from cDNA containing representative human and rat ORL1 and OFQ sequences. Both ORL1 and OFQ mRNA is detected as early as E12 in the cortical plate, basal forebrain, brainstem and spinal cord. Expression for both ORL1 and OFQ is strongest during the early postnatal period, remaining strong in the spinal cord, brainstem, ventral forebrain, and neocortex into the adult. Human ORL1 and OFQ expression is observed at 16 weeks gestation, remaining relatively unchanged up to 36 weeks. The influence of early orphanin expression on maturation of stress and pain circuitry in the developing brain remains unknown.
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PMID:Expression of orphanin FQ and the opioid receptor-like (ORL1) receptor in the developing human and rat brain. 1171 21

Orphanin FQ/nociceptin (OFQ/N), the endogenous ligand for the orphan receptor-like/kappa(3)-like opioid receptor clone, produces a variety of behavioral responses, including those associated with pronociception and antinociception. The OFQ/N precursor rattus-proOFQ (rppOFQ/N) contains several paired basic amino acids, which raises the possibility that post-translational processing can be responsible for the production of a number of additional biologically active peptide fragments. One of these putative peptides, rppOFQ/N (rppOFQ/N(154-181)), was examined for antinociceptive and pronociceptive processes in four brain sites involved in pain inhibition: the ventrolateral periaqueductal gray (vlPAG), the amygdala, the locus coeruleus (LC), and the rostroventromedial medulla (RVM). Endogenous rppOFQ/N(154-181) was identified in each region. rppOFQ/N(154-181) produced a dose-dependent antinociception in all four sites using the tailflick assay. Injections into misplaced cannula sites failed to exert effects. Antinociception in the four sites differed in their response to the opioid antagonist naloxone. Naloxone pretreatment completely blocked rppOFQ/N(154-181)-induced antinociception in the vlPAG and the amygdala, but not in the LC or RVM. In contrast rppOFQ/N(154-181) was hyperalgesic in the LC and RVM, but not in the vlPAG or amygdala. rppOFQ/N(154-181) also was compared with either its N-terminal 17-amino acid peptide (rppOFQ/N(154-170), also known as OFQ2) or its 8-amino acid C-terminal fragment (rppOFQ/N(174-181)). Although both rppOFQ/N(154-181) and rppOFQ/N(154-170) produced antinociception, the latter was less effective because the C-terminal fragment was inactive. Thus, rppOFQ/N(154-181) has complex antinociceptive and pronociceptive actions within the brain, and the pharmacological specificity of its actions differs among supraspinal sites.
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PMID:Characterization of rat prepro-orphanin FQ/nociceptin((154-181)): nociceptive processing in supraspinal sites. 1175 24

While acute pain has a fundamental role to operate a protective system, chronic pain associated with inflammation and nerve injury often outlasts its biological usefulness. Therefore, there has recently been great interest in the neurochemical mechanisms of hyperalgesia to noxious stimuli and tactile pain (allodynia) to innocuous stimuli with a hope to relieve persistent, intractable pain. Over several decades non-steroidal anti-inflammatory drugs and opioids have been employed for clinical management of pain. The introduction of molecular biology to pain research has enabled us to describe the mechanism of pain at the molecular level and to develop analgesics with selectivity for targets and with less adverse effects. This review focuses on current knowledge concerning mechanisms and pathways for pain induced by prostaglandins and their interactions with novel neuropeptides nociceptin/orphanin FQ and nocistatin derived from the same opioid precursor protein.
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PMID:Central and peripheral roles of prostaglandins in pain and their interactions with novel neuropeptides nociceptin and nocistatin. 1175 18

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