Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P61278 (somatostatin)
 22,083 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The present study addressed the question as to whether or not' interacting mu and delta opioid receptors, which may constitute an opioid receptor complex-inhibitory coupled to adenylate cyclase in rat neostriatum, display different antagonistic properties than the classical (noncomplexed) mu and delta receptors. In concentrations that antagonized the presynaptic inhibitory effect of [D-Ala2,MePhe4,Gly-ol5]enkephalin (DAMGO) on [3H]norepinephrine release from rat neocortical slices, the cyclic somatostatin-related mu opioid receptor antagonist D-Phe-Cys-Tyr-D-Trp-Orn-Thr-Pen-Thr-NH2 did not affect the inhibition of dopamine-sensitive adenylate cyclase caused by DAMGO in neostriatal slices. The delta opioid receptor antagonist naltrindole appeared to be about 200-fold more effective as an antagonist against inhibitory effect of [D-Ser2(O-tert-butyl),Leu5]enkephalyl-Thr6 on [14C]acetylcholine release from neostriatal slices than against the inhibitory effect of DAMGO on [3H]norepinephrine release from neocortical slices, in agreement with the involvement of presynaptic delta and mu receptors, respectively. However, regarding the inhibitory effect of DAMGO and [D-Ser2(O-tert-butyl),Leu5] enkephalyl-Thr6 on adenylate cyclase activity in neostriatal slices, naltrindole not only displayed a very low affinity but also only 10-fold delta-selectivity. In striking contrast to D-Phe-Cys-Tyr-D-Trp-Orn-Thr-Pen-Thr-NH2 and naltrindole, naloxone did not discriminate between the neurotransmitter release-and adenylate cyclase-inhibitory effects of DAMGO and [D-Ser2(O-tert-butyl), Leu5]enkephalyl-Thr6.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Opioid receptor antagonists discriminate between presynaptic mu and delta receptors and the adenylate cyclase-coupled opioid receptor complex in the brain. 132 6

Opiate drugs have potent analgesic and addictive properties. These drugs interact with receptors that also mediate the response to endogenous opioid peptide ligands. However, the receptors for opioids have eluded definitive molecular characterization. By transient expression in COS cells and screening with an iodinated analog of the opioid peptide enkephalin, a complementary DNA clone encoding a functional delta opioid receptor has been identified. The sequence shows homology to G protein-coupled receptors, in particular the receptors for somatostatin, angiotensin, and interleukin-8.
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PMID:Cloning of a delta opioid receptor by functional expression. 133 65

A series of cyclic, conformationally constrained photolabile peptides related to the enkephalins and to somatostatin were designed and synthesized in an effort to develop highly selective and potent peptides for the delta and mu opioid receptors. The following new peptides were prepared and tested for their delta opioid receptor potency and selectivity in the guinea pig ileum assay, the mouse vas deferens assay, and the rat brain binding assay: H-Tyr-D-Pen-Gly-p-NH2Phe-D-Pen-OH (1, [p-NH2Phe4]DPDPE) and H-Tyr-D-Pen-Gly-p-N3Phe-D-Pen-OH (2, [p-N3Phe4]-DPDPE). The following new peptides were prepared and tested for their mu opioid receptor potency and selectivity in the same assays: H-D-Phe-Cys-p-NH2Phe-D-Trp-Lys-Thr-Pen-Thr-NH2 (3, [p-NH2Phe3]CTP) and D-Phe-Cys-p-N3Phe-D-Trp-Lys-Thr-Pen-Thr-NH2 (4, [p-N3Phe3]CTP). The delta selective photoaffinity peptide 2 displayed both high affinity (IC50 = 9.5 nM) and good selectivity (IC50 mu/IC50 delta = 1053) as an agonist at delta opioid receptors in bioassays, and 2 also displayed moderate affinity (33 nM) and excellent selectivity (IC50 mu/IC50 delta = 110) for rat brain delta opioid receptors. The mu selective photoaffinity peptide 4 displayed very weak affinity (8% contraction at 300 nM) at mu opioid receptors in bioassays, but good affinity (IC50 = 48.6 nM) and excellent selectivity (IC50 delta/IC50 mu = 412) for the rat brain mu opioid receptors. These conformationally constrained cyclic photoaffinity peptides may be useful tools to investigate the pharmacology of delta and mu opioid receptors.
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PMID:Synthesis of highly mu and delta opioid receptor selective peptides containing a photoaffinity group. 253 26

H-D-Phe-Cys-Tyr-D-Trp-Orn-Thr-Pen-Thr-NH2 (CTOP) exhibited high affinity (IC50 = 2.80 nM) in displacing [3H]naloxone binding (nH = 0.89 +/- 0.1) and showed an exceptional selectivity for mu opioid receptors with an IC50(DPDPE)/IC50(naloxone) ratio of 4,840, while it displayed very low affinity for somatostatin receptors (IC50 = 22,700 nM) in rat brain binding assays. [3H]CTOP was recently custom synthesized (spec. act.: 84 Ci/mmol) and evaluated for its in vitro binding properties towards the mu opioid receptors in rat brain membrane preparations. Association and dissociation of [3H]CTOP binding to mu opioid receptors were rapid at 25 degrees C with a kinetic Kd value of 0.67 nM. Saturation experiments gave apparent Kd value of 1.11 nM and Bmax value of 136 +/- 13 fmol/mg prot at 25 degrees C. Specific [3H]CTOP binding was inhibited by a number of different opioid and opiate ligands. Among them, putative mu opioid receptor-specific ligands, such as naloxone, naltrexone and CTOP inhibited the binding with high affinity, while delta opioid receptor-specific compounds or non-opioid drugs inhibited specific [3H]CTOP binding with low affinity or they were ineffective.
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PMID:H-D-Phe-Cys-Tyr-D-Trp-Orn-Thr-Pen-Thr-NH2: a potent and selective antagonist opioid receptors. 289 64

A series of cyclic conformationally restrained octapeptide analogs of somatostatin were examined for their ability to inhibit the binding of tritiated mu, kappa, and delta opiate receptor ligands. Several of these substances were found to have high affinity for mu opiate receptors while having very low affinity for both kappa and delta receptors. Previous suggestions that somatostatin analogs exhibit opiate antagonist activity led to a study of the ability of the two most potent compounds to inhibit morphine analgesia in rats after intracerebroventricular injection. One of the compounds significantly antagonized morphine analgesia although the other displayed severe toxicity. These two compounds differed in that the very toxic compound had previously been found to possess significant somatostatin activity. It thus appears that the structural requirements for toxicity and somatostatin activity can be differentiated from those for opiate activity.
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PMID:Mu-opiate binding and morphine antagonism by octapeptide analogs of somatostatin. 289 61

A series of conformationally restricted, cyclic octapeptides containing a conformationally stable tetrapeptide sequence related to somatostatin, -Tyr-D-Trp-Lys-Thr-, as a template, were designed and synthesized with the goal of developing highly potent and selective mu opioid antagonists with minimal or no somatostatin-like activity. Three distinct structures of the peptide became targets of chemical modifications and constraints; the N- and C-terminal amino acids and the cyclic 20-membered ring moiety. Based on the conformational analysis of active and inactive analogues of the parent peptide D-Phe1-Cys2-Tyr3-D-Trp4-Lys5-Thr6-Pen7+ ++-Thr8-NH2, CTP (Kazmierski, W.; Hruby, V. J. Tetrahedron 1988, 44, 697-710), we designed analogues to include the tetrahydroisoquinolinecarboxylate (Tic) moiety as the N-terminal amino acid instead of D-Phe, since Tic can exist only as a gauche (-) or a gauche (+) conformer. In this series, the following peptides were synthesized and pharmacologically evaluated: D-Tic-Cys-Tyr-D-Trp-Lys-Thr-Pen-Thr-NH2 (TCTP), D-Tic-Cys-Tyr-D-Trp-Orn-Thr-Pen-Thr-NH2 (TCTOP), and D-Tic-Cys-Tyr-D-Trp-Arg-Thr-Pen-Thr-NH2 (TCTAP). In rat brain membrane opioid radioligand binding assays, all three peptides displayed high affinity for mu opioid receptors (IC50 = 1.2, 1.4, 1.2 nM, respectively), and exceptional mu vs delta opioid receptor selectivity: 7770, 11,396, and 1060, respectively. TCTOP and TCTAP also possess exceptional mu vs somatostatin receptor selectivity: 14,574 and 28,613, respectively. In the peripheral in vitro GPI bioassay, TCTP, TCTOP, and TCTAP were highly effective antagonists of the potent mu opioid receptor agonist PL017, with pA2 = 8.69 for TCTAP, 8.10 for TCTP, and 7.38 for TCTOP. Our results show that a 10-fold higher affinity and selectivity for mu opioid receptors (in both central and peripheral studies) over delta and somatostatin receptor was gained as a result of the D-Tic1 substitution. These three peptides, TCTP, TCTOP, and TCTAP, are the most potent and selective mu opioid antagonists known. CTP has been shown to possess prolonged biological action, much longer than that of naloxone. This renders these analogues potentially useful ligands for investigating the physiological functions of the mu opioid receptor. Analogues of TCTP in which the 20-membered disulfide ring was contracted by deletion of D-Trp4, and/or Lys5, and/or Thr6 led to compounds with greatly reduced potency at the mu opioid receptor.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Design and synthesis of somatostatin analogues with topographical properties that lead to highly potent and specific mu opioid receptor antagonists with greatly reduced binding at somatostatin receptors. 290 46

While trying to identify new members of the somatostatin receptor family of G protein-coupled receptors, we isolated cDNAs from a mouse brain library encoding two related receptor-like proteins, designated msl-1 and msl-2, of 380 and 372 amino acids, respectively. There was 61% identity and 71% similarity between the sequences of msl-1 and msl-2. Among members of the G protein-coupled receptor superfamily, the sequences of both msl-1 and msl-1 were most closely related to those of the somatostatin receptors (SSTRs), having approximately 35% identity with the sequence of SSTR1. Transient expression in COS-1 cells showed that msl-1 and msl-2 did not bind somatostatin. Rather they bound opioids selectively and with high affinity and had the pharmacological properties of kappa and delta opioid receptors, respectively. Indeed, the sequence of msl-2 was identical to that of a delta opioid receptor recently cloned by other workers. Functional characterization of kappa/msl-1 and delta/msl-2 opioid receptors showed that they were coupled to G proteins and mediated opioid receptor class-specific agonist inhibition of forskolin-stimulated cAMP formation. RNA blotting studies and in situ hybridization histochemistry showed that kappa opioid receptor mRNA was expressed at high levels in brain in the neocortex, hippocampus, amygdala, medial habenula, hypothalamus (arcuate and paraventricular nuclei), locus ceruleus, and parabrachial nucleus, suggesting that this receptor may play a role in arousal and regulation of autonomic and neuroendocrine functions.
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PMID:Cloning and functional comparison of kappa and delta opioid receptors from mouse brain. 839 75

A model for the 3D structure of the transmembrane domain of the delta opioid receptor was predicted from the sequence divergence analysis of 42 sequences of G-protein coupled peptide hormone receptors belonging to the opioid, somatostatin and angiotensin receptor families. No template was used in the prediction steps, which include multiple sequence alignment, calculation of a variability profile of the aligned sequences, use of the variability profile to identify the boundaries of transmembrane regions, prediction of their secondary structure, optimization of the packing shape in a helix bundle, prediction of side chain conformations and structural refinement. The general shape of the model is similar to that of the low resolution rhodopsin structure in that the TM3 and TM7 helices are most buried in the bundle and the TM1 and TM4 helices are most exposed to the lipid phase. An initial assessment of this model was made by determining to what extent a binding site identified using four structurally disparate high affinity delta opioid ligands was consistent with known mutational studies. With the assumption that the protonated amine nitrogen, a feature common to all delta opioid ligands, interacts with the highly conserved Asp127 in TM3, a pocket was found that satisfied the criteria of complementarity to the requirements for receptor recognition for these four diverse ligands, two delta selective antagonists (the fused ring naltrindole and the peptide Tyr-Tic-Phe-Phe-NH2) and the two agonists lofentanil and BW373U86 deduced from previous studies of the ligands alone. These ligands could be accommodated in a similar region of the receptor. The receptor binding site identified in the optimized complexes contained many residues in positions known to affect ligand binding in G-protein coupled receptors. These results also allowed identification of key residues as candidates for point mutations for further assessment and refinement of this model as well as preliminary indications of the requirements for recognition of this receptor.
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PMID:A 3D model of the delta opioid receptor and ligand-receptor complexes. 884 29

To study a potential locus of action of opioids in the rat dentate gyrus, we examined the localization of the delta opioid receptor (DOR) by immunocytochemistry. Two antisera raised to unique, non-overlapping peptide sequences located within the extracellular N-terminal sequence of DOR were tested. By light microscopy, numerous neurons in the central hilar region were intensely labeled for DOR, while the granule cell layer contained light DOR immunoreactivity. To further characterize hilar neuron cell types which contained DOR, sections through the dentate gyrus were double labeled using immunofluorescence with antisera to DOR and either gamma-aminobutyric acid (GABA), neuropeptide Y (NPY), or somatostatin-28 antisera. Most DOR-labeled perikarya also contained GABA and NPY, while a subpopulation contained somatostatin. Electron microscopic examination of sections labeled for DOR revealed that the immunoreactivity was common in profiles which exhibited the morphological characteristics of granule cells, as well as those of non-granule cells. DOR immunoreactivity was located at postsynaptic sites within neuronal perikarya (2%), dendrites (27%), and dendritic spines (22%); as well as in presynaptic axon terminals (25%) and glia (23%) (n = 279). In dendrites and dendritic spines, DOR immunoreactivity was most often associated with the plasmalemmal surface near asymmetric synapses. In axon terminals, DOR immunoreactivity primarily surrounded small, clear vesicles, and was less consistently found on the plasmalemmal surface. The distribution of DOR-labeled profiles overlapped with, but was not restricted to regions known to contain enkephalin. These data suggest that opiates acting at the DOR can modulate both hilar neurons and granule cells both pre- and postsynaptically.
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PMID:Cellular and subcellular localization of delta opioid receptor immunoreactivity in the rat dentate gyrus. 895 12

To study possible cellular targets and subcellular sites of action of opioid ligands in the rat hippocampus, we examined the distribution of the delta opioid receptor (DOR) by immunocytochemistry. By light microscopy, numerous interneurons, or non-principal cells, were intensely labeled for DOR, whereas the CA1 and CA3 pyramidal cells were lightly labeled. DOR-immunoreactive interneurons were found throughout the hippocampus but were particularly concentrated in stratum oriens of the CA1 region. Double labeling immunofluorescence revealed that DOR-immunoreactivity was found in a subpopulation of gamma-aminobutyric acid (GABA)-containing interneurons, which included most somatostatin-immunoreactive cells. Electron microscopic analysis of sections singly labeled for DOR revealed that DOR-immunoreactive profiles were abundant and widespread throughout all hippocampal lamina and had a similar distribution in CA1 and CA3. DOR-immunoreactivity was sometimes found in dendrites, which corresponded in morphology to those of interneurons. In addition, DOR-labeling was found in the shafts and spines of many dendrites, which exhibited the morphology of pyramidal cell dendrites. Within dendrites, dense DOR-immunoreactivity was associated with the plasmalemmal surface at or near the postsynaptic density, usually of asymmetric synapses. In addition, DOR labeling was present in a heterogeneous population of axon terminals, as well as in astrocytic profiles. At mossy fiber synapses, DOR labeling was occasionally found at both pre-and post-synaptic sites. These studies demonstrate that DOR is present at multiple sites on diverse cell types where it may function to regulate neuronal activity in the hippocampus.
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PMID:Localization of delta opioid receptor immunoreactivity in interneurons and pyramidal cells in the rat hippocampus. 913 74


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