UNIPROT:P20366 - FACTA Search

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Query: UNIPROT:P20366 (substance P)
21,176 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The expression of receptors for neurotensin and substance P was examined in rat brain and spinal cord using in situ hybridization with synthetic oligonucleotide probes. Strong hybridization signals for neurotensin receptor mRNA were observed over neurons i.a. in the diagonal band, medial septal nucleus, nucleus basalis magnocellularis, suprachiasmatic nucleus, supramammillary area, substantia nigra and ventral tegmental area. Strong hybridization signals for substance P receptor mRNA were observed over scattered, large neurons in the striatum, and in the spinal cord over neurons in the dorsal horn, the area around the central canal and preganglionic autonomic neurons. Thus, discrete neurons in several brain regions express a G-protein-coupled receptor with which endogenous neurotensin and substance P may interact.
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PMID:Localization of neuropeptide receptor mRNA in rat brain: initial observations using probes for neurotensin and substance P receptors. 170 71

The neuropeptide receptors which are present in very small quantities in the cell and are embedded tightly in the plasma membrane have not been well characterized. Mammals contain three distinct tachykinin neuropeptides, substance P, substance K and neuromedin K, and it has been suggested that there are multiple tachykinin receptors. By electrophysiological measurement, we have previously shown that Xenopus oocytes injected with brain and stomach mRNAs faithfully express mammalian substance-P and substance-K receptors, respectively. Here we report the isolation of the cDNA clone for bovine substance-K receptor (SKR) by extending this method to develop a new cloning strategy. We constructed a stomach cDNA library with a cloning vector that allowed in vitro synthesis of mRNAs and then identified a particular cDNA clone by testing for receptor expression following injection of the mRNAs synthesized in vitro into the oocyte system. Because oocytes injected with exogenous mRNAs can express numerous receptors and channels, our new strategy will be applicable in the general molecular cloning of these proteins. The result provides the first indication that the neuropeptide receptor has sequence similarity with rhodopsin-type receptors (the G-protein-coupled receptor family) and thus possesses multiple membrane-spanning domains.
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PMID:cDNA cloning of bovine substance-K receptor through oocyte expression system. 282 46

The neurokinin-1 receptor is a member of the G-protein-coupled receptor family and has the highest affinity for the endogenous peptide transmitter substance P. Previous studies have indicated that several residues in the first and second extracellular segments, and at least part of the transmembrane domain, of the human neurokinin-1 receptor are involved in substance P binding to the receptor. To further map the peptide binding site, single-residue substitutions in the transmembrane domains were analyzed. Asn-85, Asn-89, Tyr-92, and Asn-96 in the second transmembrane domain and Tyr-287 in the seventh transmembrane domain are required for the high-affinity binding of peptides, with Asn-85 possibly interacting with the C-terminus of substance P. In addition, Glu-78 in the second transmembrane domain and Tyr-205 in the fifth transmembrane domain appear to be involved in the receptor activation process. Some of the key residues for peptide binding are likely to be near those residues that are required for the binding of competitive antagonists (such as His-197, His-265, and Tyr-287). These data suggest that a volume exclusion effect can explain the competitive antagonism of substance P binding by non-peptide antagonists. Furthermore, the key residues identified thus far are required for the high-affinity binding of all three neurokinin peptides, consistent with a hypothesis that the conformational compatibility between the receptor and the peptide agonist may be a major determinant of peptide recognition.
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PMID:Interaction of substance P with the second and seventh transmembrane domains of the neurokinin-1 receptor. 751 May 19

The tachykinin substance P (SP) is a peptide transmitter of primary afferents. Its actions on both central and peripheral targets are mediated by a G-protein-coupled receptor of known primary structure. To identify contact sites between the undecapeptide SP and its receptor, we prepared radiolabeled photoreactive analogs of SP (H-RPKPQQFFGLM-NH2) by replacing amino acids in the peptide with p-benzoyl-L-phenylalanine (BPA). SP, BPA3-SP, and BPA8-SP bind with high affinity (Kd < 3 nM) to SP receptors on the murine cell line P388D1, triggering intracellular calcium responses. Both binding and calcium responses are blocked by the specific SP receptor antagonist CP-96345. On photolysis, radioiodinated BPA3-SP, and BPA8-SP covalently label a heterogeneously glycosylated protein of about 75 kDa; labeling is abolished by excess unlabeled SP or CP-96345. The labeled receptors were digested with V8 protease and/or trypsin, and the resulting fragments were analyzed by electrophoresis, high pressure liquid chromatography, and chemical or enzymatic modification. BPA3-SP and BPA8-SP photo-incorporate into different regions of the murine SP receptor. The results establish that the third and the eighth positions of SP, respectively, interact with the NH2-terminal extracellular tail (residues 1-21) and second extracellular loop (residues 173-183) of the SP receptor. A model for the agonist peptide-binding sites of the SP receptor is proposed based on photoaffinity labeling and mutagenesis studies.
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PMID:Mapping peptide-binding domains of the substance P (NK-1) receptor from P388D1 cells with photolabile agonists. 783 82

Substance P (SP), one of the best characterized neurogenic mediators of immune hyperactivity, stimulates the production of a variety of cytokines, and acts as a general proinflammatory agent inducing proliferation and activation of immune cells Neurokinin 1 receptor (NK-1R), a G-protein-coupled receptor with high affinity for SP, has been cloned from nonlymphoid tissues. Although previous binding studies indicated the presence of high affinity SP receptors on immune cells, recent studies questioned the existence of specific NK-1R on lymphocytes and monocytes. In this study we investigate the expression of the NK-1R gene in murine T lymphocytes and T cell lines. The expression of NK-1R mRNA was determined by reverse transcription polymerase chain reaction (RT-PCR), with two separate sets of specific primers, and by nuclease protection assays. The NK-1R nature of the lymphocytic amplified fragments was confirmed by Southern blots with specific murine brain NK-1R probes. Both T cells lines (EL-4.IL-2 and LBRM-T6G) which were previously shown to respond to SP by increased IL-2 production express NK-1R mRNA constitutively. Normal spleen cells and purified CD4+ T lymphocytes which also responded to SP by increased IL-2 production express NK-1R mRNA. In addition to CD4+ T cells, NK-1R message is also expressed in murine splenic B lymphocytes. Sequencing of the RT-PCR amplified fragments from EL-4.IL-2 cells, purified CD4+ T lymphocytes, and murine brain showed complete identity to the published murine NK-1R sequence. This study indicates that murine CD4+ T lymphocytes possess the molecular template for the production of NK-1R. Together with previous binding studies, and with pharmacological studies regarding the effect of SP and of selective NK-1R antagonists on cytokine production, the present study supports the hypothesis that the response of CD4+ T cells to SP and related tachykinins is mediated through specific NK-1 receptors.
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PMID:Expression of NK-1 receptor mRNA in murine T lymphocytes. 889 59

Neuropeptide Y (NPY) receptors belong to the G-protein-coupled receptor (GPCR) superfamily and mediate several physiological responses, such as blood pressure, food intake, sedation and memory retention. To understand the interactions between the NPY Y1 receptor subtype and its ligands, computer modeling was applied to the natural peptide agonist, NPY and a small molecule antagonist, BIBP3226. An agonist and antagonist binding domain was elucidated using mutagenesis data for the Y1 receptor as well as for other GPCR families. The agonist and antagonist ligands which were investigated appear to share common residues for their interaction within the transmembrane regions of the Y1 receptor structure, including Gln120, Asn283 and His306. This is in contrast to findings with tachykinin receptors where the binding domains of the non-peptide antagonists have very little in common with the binding domains of the agonist, substance-P. In addition, a hydrogen bond between the hydroxyl group of Tyr36 of NPY and the side chain of Gln219, an interaction that is absent in the model complex between Y1 and the antagonist BIBP3226, is proposed as one of the potential interactions necessary for receptor activation.
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PMID:Modeling the G-protein-coupled neuropeptide Y Y1 receptor agonist and antagonist binding sites. 908 10

Substance P is an important neuropeptide neurotransmitter in the central, autonomic and enteric nervous systems. In sympathetic ganglia, substance P is thought to play a role in modulating synaptic transmission. Release of substance P by neuronal stimulation or direct application of substance P to ganglionic neurons increases neuronal excitability. An amphibian substance P receptor complementary DNA has been cloned and characterized from bullfrog, Rana catesbeiana, sympathetic ganglion complementary DNA libraries. The deduced primary structure contains features indicative of a seven transmembrane domain G-protein-coupled receptor. The deduced protein sequence shows 69% identity to previously cloned mammalian substance P receptors. In situ hybridization analysis performed on bullfrog sympathetic ganglia using digoxigenin-labelled complementary RNA probe demonstrated that approximately 75% of the principal neurons displayed reaction product above background levels. Radioligand binding studies were performed on stably transfected cells with [(125)I]Tyr-1-substance P as the ligand. Substance P had an IC50 of 16 nM and the agonist potency profile was substance P>neurokinin A >> neurokinin B. The order of potency for three tachykinins to increase intracellular calcium when applied to a stably transfected clonal cell line was substance P>neurokinin A >> neurokinin B. This order of agonist potency also held for inhibition of the M-type potassium current in intact bullfrog sympathetic neurons. The non-peptide substance P antagonists CP-96345 and RP-67580 at concentrations that block mammalian substance P receptors had little or no effect on the responses to substance P at the bullfrog receptor. Overall, these results demonstrate that the cloned sequence has the features consistent with and characteristic of a substance P receptor. The results are discussed with reference to the established pharmacology of the bullfrog substance P receptor and known structure activity relationships of mammalian tachykinin receptors.
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PMID:Molecular characterization and functional expression of a substance P receptor from the sympathetic ganglion of Rana catesbeiana. 921 80

A novel G-protein-coupled receptor (GRL106) resembling neuropeptide Y and tachykinin receptors was cloned from the mollusc Lymnaea stagnalis. Application of a peptide extract from the Lymnaea brain to Xenopus oocytes expressing GRL106 activated a calcium-dependent chloride channel. Using this response as a bioassay, we purified the ligand for GRL106, Lymnaea cardioexcitatory peptide (LyCEP), an RFamide-type decapeptide (TPHWRPQGRF-NH2) displaying significant similarity to the Achatina cardioexcitatory peptide (ACEP-1) as well as to the recently identified family of mammalian prolactin-releasing peptides. In the Lymnaea brain, the cells that produce egg-laying hormone are the predominant site of GRL106 gene expression and appear to be innervated by LyCEP-containing fibers. Indeed, LyCEP application transiently hyperpolarizes isolated egg-laying hormone cells. In the Lymnaea pericardium, LyCEP-containing fibers end blindly at the pericardial lumen, and the heart is stimulated by LyCEP in vitro. These data confirm that LyCEP is an RFamide ligand for GRL106.
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PMID:The lymnaea cardioexcitatory peptide (LyCEP) receptor: a G-protein-coupled receptor for a novel member of the RFamide neuropeptide family. 982 40

Using a combined pharmacological and gene-deletion approach, we have delineated a novel mechanism of neurokinin-1 (NK-1) receptor-dependent hyperalgesia induced by proteinase-activated receptor-2 (PAR2), a G-protein-coupled receptor expressed on nociceptive primary afferent neurons. Injections into the paw of sub-inflammatory doses of PAR2 agonists in rats and mice induced a prolonged thermal and mechanical hyperalgesia and elevated spinal Fos protein expression. This hyperalgesia was markedly diminished or absent in mice lacking the NK-1 receptor, preprotachykinin-A or PAR2 genes, or in rats treated with a centrally acting cyclooxygenase inhibitor or treated by spinal cord injection of NK-1 antagonists. Here we identify a previously unrecognized nociceptive pathway with important therapeutic implications, and our results point to a direct role for proteinases and their receptors in pain transmission.
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PMID:Proteinase-activated receptor-2 and hyperalgesia: A novel pain pathway. 1143 34

Metabotropic glutamate receptor 1 (mGluR1) is a G-protein-coupled receptor and is expressed in the medium spiny projection neurons of mouse striatum. To define the role of mGluR1 in actions of psychostimulant, we compared both motor behavior and striatal neuropeptide mRNA expression between mGluR1 mutant and wild-type control mice after a single injection of amphetamine. We found that acute amphetamine injection increased motor activity in both mutant and control mice in a dose-dependent manner (1, 4, and 12 mg/kg, i.p.). However, the overall motor responses of mGluR1 -/- mice to all three doses of amphetamine were significantly greater than those of wild-type +/+ mice. Amphetamine also induced a dose-dependent elevation of preprodynorphin mRNA in the dorsal and ventral striatum of mutant and wild-type mice as revealed by quantitative in situ hybridization. In contrast to behavioral responses, the induction of dynorphin mRNA in both the dorsal and ventral striatum of mutant mice was significantly less than that of wild-type mice in response to the two higher doses of amphetamine. In addition, amphetamine elevated basal levels of substance P mRNA in the dorsal and ventral striatum of mGluR1 mutant mice to a similar level as that of wild-type mice. There were no differences in basal levels and distribution patterns of the two mRNAs between the two genotypes of mice treated with saline. These results demonstrate a clear augmented behavioral response of mGluR1 knockout mice to acute amphetamine exposure that is closely correlated with reduced dynorphin mRNA induction in the same mice. It appears that an intact mGluR1 is specifically critical for full dynorphin induction, and impaired mobilization of inhibitory dynorphin system as a result of lacking mGluR1 may contribute to an augmentation of motor stimulation in response to acute administration of psychostimulant.
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PMID:Augmented motor activity and reduced striatal preprodynorphin mRNA induction in response to acute amphetamine administration in metabotropic glutamate receptor 1 knockout mice. 1156 2

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