UNIPROT:P61278 - FACTA Search

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Query: UNIPROT:P61278 (somatostatin)
22,083 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Selective PCR amplification of human and mouse genomic DNAs with oligonucleotides encoding highly conserved regions of the delta-opioid and somatostatin receptors generated a human DNA probe (hOP01, 761 bp) and its murine counterpart (mOP86, 447 bp). hOP01 was used to screen a cDNA library from human brainstem. A clone (named hORL1) was isolated, sequenced and found to encode a protein of 370 amino acids whose primary structure displays the seven putative membrane-spanning domains of a G protein-coupled membrane receptor. The hORL1 receptor is most closely related to opioid receptors not only on structural (sequence) but also on functional grounds: hORL1 is 49-50% identical to the murine mu-, delta- and kappa-opioid receptors and, in CHO-K1 cells stably transfected with a pRc/CMV:hORL1 construct, ORL1 mediates inhibition of adenylyl cyclase by etorphine, a 'universal' (nonselective) opiate agonist. Yet, hORL1 appears not to be a typical opioid receptor. Neither is it a somatostatin or sigma (N-allylnormetazocine) receptor. mRNAs hybridizing with synthetic oligonucleotides complementary to mOP86 are present in many regions of the mouse brain and spinal cord, particularly in limbic (amygdala, hippocampus, septum, habenula, ...) and hypothalamic structures. We conclude that the hORL1 receptor is a new member of the opioid receptor family with a potential role in modulating a number of brain functions, including instinctive behaviours and emotions.
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PMID:ORL1, a novel member of the opioid receptor family. Cloning, functional expression and localization. 813 18

1. In this study we have examined the effects of nociceptin, an endogenous ligand for the opioid-like receptor ORL1 on the membrane properties of rat locus coeruleus (LC) neurones in vitro, using intracellular and whole cell patch clamp recording. 2. When locus coeruleus neurones were voltage clamped to -60 mV, application to nociceptin caused an outward current in all cells examined (n = 49), with an EC50 of 90 nM. Neither the potency nor the maximal effect of nociceptin was altered in the presence of the peptidase inhibitors, bestatin (20 microM) or thiorphan (2 microM). 3. The outward currents caused by nociceptin in 2.5 mM extracellular K+ reversed polarity at -123 mV, more negative than the predicted K+ reversal potential of -105 mV. Increasing extracellular K+ to 6.5 mM resulted in a shift of the reversal potential of +25 mV, a shift consistent with a K+ conductance. The conductance activated by nociceptin showed mild inward rectification. 4. Application of a high concentration of nociceptin (3 microM) occluded the current produced by simultaneous application of high concentrations of Met-enkephalin (10 microM), (3 microM) somatostatin and UK 14304 (3 microM), indicating that nociceptin activated the same conductance as mu-opioid and somatostatin receptors and alpha 2-adrenoceptors. 5. The actions of nociceptin were weakly antagonized by the opioid antagonist, naloxone, with pKb's estimated from 2 cells of -4.23 and -4.33. The mu-opioid antagonist, CTAP (D-Phe-Cys-Tyr-D-Trp-Arg-Pen-Thr-NH2, 1 microM), the opioid antagonist, nalorphine (30 microM) or the somatostatin antagonist, CPP (cyclo(7-aminoheptanoyl-Phe-D-Trp-Lys-Thr[Bz1]) 3 microM) did not affect the nociceptin-induced current. 6. Dynorphin A (microM), another putative endogenous ligand for ORL1, caused a robust outward current in locus coeruleus neurones that was, however, completely antagonized by moderate concentrations of naloxone (300 nM-1 microM). 7. Continuous application of nociceptin (3 microM) resulted in a decrease of the outward current to a steady level of 70% of the maximum response with a t1/2 of 120s. Desensitization was largely homologous because simultaneous application of Met-enkephalin (30 microM) during the desensitized period of the nociceptin response resulted in an outward current that was 92% of control responses to Met-enkephalin in the same cells. Conversely, continuous application of Met-enkephalin (30 microM) resulted in a decrease of Met-enkephalin current to a steady level that was 54% of the initial current. During this desensitized period application of nociceptin (3 microM) resulted in a current that was 78% of the control responses to nociceptin in the same cells. 8. Thus nociceptin potently activates an inwardly rectifying K+ conductance in locus coeruleus neurones, with a pharmacological profile consistent with activation of the ORL1 receptor. Dynorphin A does not appear to be a ligand for ORL1 in rat locus coeruleus neurones.
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PMID:Nociceptin receptor coupling to a potassium conductance in rat locus coeruleus neurones in vitro. 898 9

The noradrenergic neurones of the autonomic nervous system (postganglionic sympathetic neurones) and of the central nervous system are endowed with presynaptic receptors by which noradrenaline release is inhibited by noradrenaline itself (via the alpha2-autoreceptor) and by other transmitters and mediators (via heteroreceptors). Frequently, but not consistently, inhibitory interactions exist between auto- and heteroreceptors. This holds true for the following heteroreceptors: adenosine A1, cannabinoid CB1, dopamine D2/D3, histamine H3, 5-hydroxytryptamine (serotonin) 5-HT(1B), imidazoline, muscarine M2, delta opioid, kappa opioid, mu opioid, orphan opioid (ORL1), prostaglandin EP3, and somatostatin SRIF1. Such interactions (which have also been obtained in human tissue) may, if not considered, prevent the identification of a putative heteroreceptor or the quantitative estimation of the effect mediated by this receptor, and they may explain drug interactions in humans in vivo; many ligands at the alpha2-autoreceptor and at the heteroreceptors may be simultaneously used for therapeutic reasons (e.g., carbachol, clonidine, dopamine, sumatriptan, mianserin, and misoprostol) or abused (e.g., heroin, LSD, and delta9-tetrahydrocannabinol in hashish or marijuana).
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PMID:Interactions between the presynaptic alpha2-autoreceptor and presynaptic inhibitory heteroreceptors on noradrenergic neurones. 982 Jul 29

The central nucleus of amygdala (CeA) plays an important role in modulation of the descending antinociceptive pathways. Using whole-cell patch clamp recordings from brain slices, we found that CeA neurons responded to the endogenous ligands somatostatin (SST) and nociceptin/orphanin FQ (OFQ) via an increased K-conductance. Co-application with selective antagonists suggested that SST and OFQ act on SSTR2 and ORL1 receptors, respectively. Taking account of anatomical localisation of recorded neurons, the present study showed that many responsive neurons were located within the medial subdivision of CeA and all CeA projection neurons to the midbrain periaqueductal grey invariably responded to these peptides. Randomly selected agonist-responsive neurons in CeA predominantly classified physiologically as low-threshold spiking neurons. The similarity of SST, OFQ and, as previously reported, opioid responsiveness in a sub-population of CeA neurons suggests converging roles of these peptides to inhibit the activity of projections from CeA to vlPAG, and potentially similar antinociceptive actions in this pathway.
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PMID:Somatostatin and nociceptin inhibit neurons in the central nucleus of amygdala that project to the periaqueductal grey. 2054 64