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)

Infusion of neurotensin, substance P and methionine-enkephalin induces colonic contraction in the cat. The present study was performed to investigate the effect of various pharmacological blocking agents on colonic contraction evoked by these peptides infused by the i.a. or i.v. route. The contractions caused by infusions of neurotensin were blocked by tetrodotoxin (1 micrograms kg-1 i.a.), hexamethionium (10 mg kg-1 i.v.), atropine (0.1 mg kg-1 i.v.) or somatostatin (100 pmol min-1 i.a.), but not by haloperidol, methysergide, mepyramine, cimetidine or naloxone. The contractile effect of substance P on the colon was abolished by the substance P receptor antagonist (D-Arg1, D-Pro2, D-Trp7,9, Leu11)-substance P (70 nmol min-1 i.a.). No other blockers used, such as tetrodotoxin, hexamethonium, atropine, mepyramine, cimetidine, methysergide, naloxone or somatostatin inhibited the response to substance P. Methionine-enkephalin produced a colonic contraction that was completely blocked by naloxone (1 mg kg-1 i.a.). Both atropine (0.1 mg kg-1 i.v.) and somatostatin (100 pmol min-1 i.a.) reduced the contractile response. However, tetrodotoxin, hexamethonium, mepyramine, cimetidine and methysergide did not affect the response to methionine-enkephalin. All adrenergic blockers tested, that is, guanethidine, propranolol and phentolamine, increased the contractile responses to the peptides. The results indicate that the colonic contraction induced by neurotensin is mediated via nervous cholinergic pathways. Substance P induces colonic contraction, probably by a direct effect on smooth muscle substance P receptors. Methionine-enkephalin induces colonic contraction which could be blocked by naloxone. However, a cholinergic or peptidergic link may also be involved in the response to methionine-enkephalin.
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PMID:Pharmacological analysis of the mechanism of action for colonic contraction induced by neurotensin, substance P and methionine-enkephalin. 241 19

Mast cells of human skin, but not lung, adenoids, tonsils, or intestine, release histamine in response to substance P, vasoactive intestinal polypeptide, and somatostatin. The substance P receptor of skin mast cells is not of the NK-1, NK-2 or NK-3 subtypes of smooth muscle. Time course and calcium dependency of release by peptides differed from anti-IgE. With anti-IgE, the molar ratios of histamine:PGD2:LTC4 generated by skin mast cells was 1,000:25:2, whereas with substance P these ratios were 1,000:1:0.1. Similar results were obtained with the other neuropeptides. The ability of peptides to stimulate skin mast cell histamine release suggests a mechanism whereby their release from dermal nerve endings is coupled to changes in microvasculature.
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PMID:Interaction of neuropeptides with human mast cells. 246 22

In vitro studies have demonstrated that glia can express functional receptors for a variety of neurotransmitters. To determine whether similar neurotransmitter receptors are also expressed by glia in vivo, we examined the glial scar in the transected optic nerve of the albino rabbit by quantitative receptor autoradiography. Receptor binding sites for radiolabeled calcitonin gene-related peptide, cholecystokinin, galanin, glutamate, somatostatin, substance P, and vasoactive intestinal peptide were examined. Specific receptor binding sites for each of these neurotransmitters were identified in the rabbit forebrain but were not detected in the normal optic nerve or tract. In the transected optic nerve and tract, only receptor binding sites for substance P were expressed at detectable levels. The density of substance P receptor binding sites observed in this glial scar is among the highest observed in the rabbit forebrain. Ligand displacement and saturation experiments indicate that the substance P receptor binding site expressed by the glial scar has pharmacological characteristics similar to those of substance P receptors in the rabbit striatum, rat brain, and rat and canine gut. The present study demonstrates that glial cells in vivo express high concentrations of substance P receptor binding sites after transection of retinal ganglion cell axons. Because substance P has been shown to regulate inflammatory and immune responses in peripheral tissues, substance P may also, by analogy, be involved in regulating the glial response to injury in the central nervous system.
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PMID:Substance P receptor binding sites are expressed by glia in vivo after neuronal injury. 247 40

The antagonistic effect of newly synthesized substance P (SP) analogues containing D-histidine was examined on behavioural responses induced in mice by SP, neurokinin (NK) A, physalaemin, eledoisin, somatostatin and bombesin. [D-Pro2,D-Trp7,9]SP (DPDT-SP) and [D-Arg1,D-Trp7,9,Leu11]SP (spantide) were used as references for comparison. When co-administered with SP intrathecally, all the SP analogues used decreased the SP-induced response which consists of scratching, biting and licking. DPDT-SP and spantide attenuated non-specifically the SP-like behavioural responses induced by physalaemin, eledoisin, NK A and somatostatin. In general, the introduction of D-histidine in position 9 of the SP molecule resulted in potent antagonistic activity of the SP derivative on the behavioural responses to SP. Of these SP analogues, [D-Arg1,D-Pro2,4,D-Phe7,D-His9]SP attenuated selectively the behavioural responses produced by NK-1 receptor agonists such as SP and physalaemin. Simultaneous injection of [D-Phe7,D-His9]SP-(6-11) selectively inhibited the SP-induced behavioural response without affecting the other peptide-induced behavioral response. The results suggest that the behavioural antagonism induced by [D-Arg1,D-Pro2,4,D-Phe7,D-His9]SP and [D-Phe7,D-His9]SP-(6-11) is probably due to the specific blockade of spinal NK-1 receptors.
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PMID:Substance P analogues containing D-histidine antagonize the behavioural effects of intrathecally co-administered substance P in mice. 248 48

Substance P (SP) and somatostatin 1-14 (SOM) have immunoregulatory properties. Cells within the granulomas of murine schistosomiasis mansoni make both. SP enhances, whereas SOM inhibits soluble egg Ag (SEA)-induced, IFN-gamma production. IFN-gamma is important during IgG2a isotype switching. Thus, we investigated whether SP or SOM could affect IgG2a production in murine schistosomiasis. Our results show that SEA and rIFN-gamma stimulate splenic IgG2a secretion in murine schistosomiasis. Moreover, SP at > or = to 10(-10) M substantially increased both polyclonal as well as SEA-specific, IgG2a secretion from spleen cells challenged with SEA. However, cells exposed to SOM at > or = 10(-10)M showed strong inhibition. Also, both SP and SOM modulated the frequency of IgG2a-producing cells. Splenic IgG2a production in response to SEA, SP, and SOM required the presence of Thy 1.2+ cells, whereas, rIFN-gamma- induced IgG2a synthesis did not. Also, experiments using irradiation lymphocytes showed that SP, SOM, or rIFN-gamma modulation of IgG2a release was not dependent on cell proliferation. The highly specific SP receptor antagonist, CP-96,345, completely inhibited the effect of SP but not SOM on IgG2a release. This suggests that SP acted through an authentic NK-1 receptor and that SOM required a different receptor interaction. Granuloma cells secreted IgG2a constitutively. Yet, neither SEA, SP, SOM, rIFN-gamma, nor blocking anti-IFN-gamma mAb could modulate this constitutive IgG2a release during short term culture conditions. Moreover, the IgG2a secretion also continued in the absence of Thy 1.2+ lymphocytes. However, mice treated with CP-96,345 or octreotide (SOM agonist) in vivo produced granulomas that made little or no IgG2a. Spleen cell experiments showed that SEA, SP, SOM, and rIFN-gamma could only affect SEA-induced, IgG2a production during early stages of Ag stimulation. Thus, unlike the spleen, it is probable that the granulomas contain mostly activated B cells that have completed switch recombination.
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PMID:Substance P and somatostatin can modulate the amount of IgG2a secreted in response to schistosome egg antigens in murine schistosomiasis mansoni. 750 19

In murine Schistosomiasis mansoni, granuloma eosinophils make SP. We investigated whether SP affects lymphokine secretion in murine schistosomiasis. SP at > or = 10(-10) M, and other tachykinins at much higher concentrations, substantially increased IFN-gamma secretion from spleen or granuloma inflammatory cells primed in vitro by suboptimal stimulatory concentrations of egg Ag or mitogen. Cells receiving maximal antigenic or mitogenic stimulation were affected marginally. Also, tachykinins induced no IFN-gamma from resting cells receiving no Ag or mitogen stimulation. There are three distinct tachykinin receptors, called NK-1, NK-2 and NK-3. SP binds the NK-1 receptor with highest affinity. Specific NK-1 receptor antagonists blocked all tachykinin-induced, IFN-gamma secretion. An NK-2 receptor inhibitor had no effect. Thus, SP and other tachykinins were acting through an NK-1 receptor. Inflammatory cells from 4-day-old granulomas cultured in vitro secrete IFN-gamma. Yet, there was no measurable IFN-gamma when SP receptor antagonists were added to the cultures. Moreover, animals treated in vivo with the NK-1 receptor antagonist CP-96,345 produced smaller granulomas. This suggested that endogenous SP may be necessary for normal induction of granuloma IFN-gamma secretion and a normal granulomatous response. Granuloma macrophages make somatostatin (SOM) that can decrease IFN-gamma secretion. Yet, IFN-gamma secretion was unaffected when both SP and SOM were in the cell cultures. In conclusion, SP modulates Ag-driven IFN-gamma secretion through a NK-1 receptor. Also, SP and SOM may be components of a natural circuit within inflammation that regulates IFN-gamma production.
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PMID:Substance P modulates antigen-induced, IFN-gamma production in murine Schistosomiasis mansoni. 768 34

Immunochemical characteristics of neostriatal neurons producing substance P receptor (SPR) were examined in adult rats by double- and triple-immunofluorescence methods. In the neostriatum, SPR immunoreactivity was detected in large and medium-sized aspiny neurons. Virtually all SPR-immunoreactive neurons in the neostriatum contained somatostatin (SS) or choline acetyltransferase (ChAT), but not parvalbumin. All SS- and ChAT-immunoreactive neurons in the neostriatum showed SPR immunoreactivity. The co-existence of SS and ChAT was, however, not found in single neurons expressing SPR immunoreactivity. The present results indicate that neostriatal neurons immunoreactive for SPR are segregated into 2 groups: (1) medium-sized, spiny somatostatinergic, and (2) large, aspiny cholinergic neurons.
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PMID:Substance P receptor-immunoreactive neurons in the rat neostriatum are segregated into somatostatinergic and cholinergic aspiny neurons. 790 24

Site-directed mutations of the cDNA for Gi1 alpha, Gi21 alpha, and Gi3 alpha were constructed which changed the cysteine residue at the C terminus to a glycine residue (Gi alpha PT). This mutation of the Gi alpha would not permit the subsequent covalent modification by pertussis toxin, which requires the cysteine moiety. The cDNA for each of the mutant Gi alpha subunits was transfected into GH4C1 cells with either of the alternative splice forms of the D2 dopamine receptor and clonal lines were generated. After treatment with pertussis toxin to remove the contribution from endogenous Gi proteins, the receptor-mediated inhibition of adenylyl cyclase was examined. The D2 dopamine receptor, short form (D2s) signaled through the Gi2 alpha PT mutant in these cells with an affinity for agonist which was comparable to that observed in cells transfected with the cDNA for D2s alone or the signaling observed in the absence of pertussis toxin. The long form of the D2 dopamine receptor (D2l) signaled through the Gi3 alpha PT mutant to inhibit forskolin-stimulated adenylyl cyclase, with an affinity for agonist comparable to that observed in cells transfected with the cDNA for D2l alone. The receptor for somatostatin (somatotropin release inhibiting factor) was used as an endogenous control receptor in these cell lines. The somatotropin release inhibiting factor was able to signal through both Gi1 alpha PT and Gi3 alpha PT to inhibit forskolin-stimulated adenylyl cyclase. These results indicated that receptors use distinct Gi proteins to signal to a common effector.
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PMID:The D2 dopamine receptor isoforms signal through distinct Gi alpha proteins to inhibit adenylyl cyclase. A study with site-directed mutant Gi alpha proteins. 791 15

The 2',3'-dialdehyde analogue of GTP, oGTP, was devised as an irreversible antagonist of regulatory GTP-binding proteins (G proteins). Here, we show that oGTP uncouples transmembrane signaling mediated by a set of distinct G proteins both in isolated membranes and in whole cells. In human platelet membranes, pretreatment with oGTP suppressed receptor- and G protein-controlled regulation of adenylyl cyclase activity. In chick neuronal cells, inhibition of the voltage-sensitive Ca(2+)-current by various membrane receptors (alpha 2-adrenergic, somatostatin, GABAB) was eliminated when oGTP was applied intracellularly in the whole cell patch-clamp configuration. Disruption of endogenous signaling pathways by oGTP occurred through specific blockage of the GTP-binding site of G protein alpha-subunits by the following criteria: (i) pretreatment of membranes with oGTP blocked direct G protein activation by guanine nucleotides as well as labeling of Gs alpha and Gi alpha with the photoaffinity probe [alpha-32P]GTP azidoanilide. (ii) The effect of oGTP was antagonized by the simultaneous introduction of guanosine 5'-(3-O-thio)triphosphate into the patch-clamped cell. (iii) The time to onset of action was similar for oGTP and guanosine 5'-O-thio)diphosphate. (iv) Inactivation of G protein-dependent signaling was overcome by substituting G protein alpha-subunits. Addition of both the short and long form of recombinant Gs alpha (rGs alpha-s and rGs alpha-L) restored guanine nucleotide-dependent adenylyl cyclase activity to oGTP-treated platelet membranes with rGs alpha-L being approximately 3-10-fold more potent than rGs alpha-s. This apparent preference was due to the intrinsically different activation rates of rGs alpha-L and rGs alpha-s. When reconstituted with exogenous rGs alpha, the A2-adenosine receptor did not discriminate among the two forms of rGs alpha. Thus, Gs alpha-L is the primary determinant of basal cAMP formation in platelets. In contrast, neither the addition of various recombinant subtypes of Gi/o nor purified bovine brain beta gamma-dimers reconstituted adenylyl cyclase inhibition in oGTP-treated membranes. All subtypes of Gi alpha stimulated adenylyl cyclase. In the presence of rGs alpha, a conditional stimulation by beta gamma-dimers was observed. This pattern of stimulation shows that platelet adenylyl cyclase is a type II-like isoform. Either a differently modified G protein or an ancillary GTP-binding component is required for adenylyl cyclase inhibition in platelets. oGTP can be considered a useful tool for disruption and reconstitution of transmembrane signaling mediated by presumably all classes of heterotrimeric G proteins.
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PMID:2',3'-Dialdehyde GTP as an irreversible G protein antagonist. Disruption and reconstitution of G protein-mediated signal transduction in cells and cell membranes. 798 76

Substance P receptor-expressing neurons in the rat cerebral neocortex were examined by single- and double-immunolabeling methods with an affinity-purified specific antibody to substance P receptor. Substance P receptor immunoreactivity was observed exclusively in non-pyramidal neurons. About a quarter of these substance P receptor-positive neocortical neurons showed intense immunoreactivity, and the other three quarters displayed weak substance P receptor immunoreactivity. The neurons showing intense substance P receptor immunoreactivity were large multipolar cells with a few long aspiny or sparsely-spiny dendrites, and were scattered throughout the neocortical layers except for layer I, and also in the underlying white matter. The weakly immunoreactive neurons were medium-sized multipolar cells with oval to round somata and aspiny varicose dendrites, and were distributed in all cortical layers with a bias to layers II-III and the superficial part of layer V. The double-immunofluorescence study revealed that almost all substance P receptor-positive neurons were immunoreactive for GABA, but negative for glutaminase. Substance P receptor immunoreactivity in GABAergic neocortical neurons were further examined by the double-immunofluorescence method with antibodies to markers for subgroups of GABAergic neurons. Somatostatin immunoreactivity was found in 89% of neurons with intense substance P receptor immunoreactivity, and in 1.5% of neurons with weak substance P receptor immunoreactivity. Neuropeptide Y immunoreactivity was also observed in 92% of neurons with intense immunoreactivity for substance P receptor, and in 1.6% of neurons with weak immunoreactivity for substance P receptor. In contrast, parvalbumin immunoreactivity was seen in 1.3% of neurons with intense substance P receptor immunoreactivity, and in 59% of weak substance P receptor immunoreactivity. Calbindin D28k immunoreactivity was found in 12 and 19% of neurons, respectively, with weak and intense immunoreactivities for substance P receptor. Virtually no cells showing substance P receptor immunoreactivity displayed immunoreactivity for vasoactive intestinal polypeptide or choline acetyltransferase. These results indicate that the neocortical neurons expressing substance P receptor constitute a subpopulation of GABAergic non-pyramidal cells, and are segregated into neurons with intense immunoreactivity and those with weak immunoreactivity for substance P receptor; the vast majority of neurons with intense substance P receptor immunoreactivity contain somatostatin and neuropeptide Y, and the majority of neurons with weak substance P receptor immunoreactivity have parvalbumin.
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PMID:Morphological and chemical characteristics of substance P receptor-immunoreactive neurons in the rat neocortex. 805 13

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