Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

Dopamine (DA) and glutamate neurotransmission is thought to be critical for psychostimulant drugs to induce immediate early genes (IEGs) in the caudate-putamen (CPu). We report here, however, that the ability of DA and glutamate NMDA receptor antagonists to attenuate amphetamine-evoked c-fos mRNA expression in the CPu depends on environmental context. When given in the home cage, amphetamine induced c-fos mRNA expression predominately in preprodynorphin and preprotachykinin mRNA-containing neurons (Dyn-SP+ cells) in the CPu. In this condition, all of the D1R, D2R and NMDAR antagonists tested dose-dependently decreased c-fos expression in Dyn-SP+ cells. When given in a novel environment, amphetamine induced c-fos mRNA in both Dyn-SP+ and preproenkephalin mRNA-containing neurons (Enk+ cells). In this condition, D1R and non-selective NMDAR antagonists dose-dependently decreased c-fos expression in Dyn-SP+ cells, but neither D2R nor NR2B-selective NMDAR antagonists had no effect. Furthermore, amphetamine-evoked c-fos expression in Enk+ cells was most sensitive to DAR and NMDAR antagonism; the lowest dose of every antagonist tested significantly decreased c-fos expression only in these cells. Finally, novelty-stress also induced c-fos expression in both Dyn-SP+ and Enk+ cells, and this was relatively resistant to all but D1R antagonists. We suggest that the mechanism(s) by which amphetamine evokes c-fos expression in the CPu varies depending on the stimulus (amphetamine vs. stress), the striatal cell population engaged (Dyn-SP+ vs. Enk+ cells), and environmental context (home vs. novel cage).
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PMID:Amphetamine-evoked c-fos mRNA expression in the caudate-putamen: the effects of DA and NMDA receptor antagonists vary as a function of neuronal phenotype and environmental context. 1280 22

We evaluated the role of spinal glutamate and substance P receptors in noxious stimulus-induced antinociception (NSIA). NSIA was produced by subdermal capsaicin administration in the hind paw of the rat and measured as attenuation of the jaw-opening reflex. NSIA was completely blocked by spinal intrathecal administration of the selective NMDA receptor antagonist LY235959 as well as the mGluR5 antagonists MPEP and SIB-1757 and partially attenuated by the selective AMPA/kainate receptor antagonist NBQX; however, neither the mGluR1 receptor antagonist LY367385 nor the NK1 antagonist L-703,606 affected NSIA. These results suggest that NSIA depends on glutamate, released from the central terminals of the primary afferent nociceptors, acting primarily on NMDA and mGluR5 receptors. Although substance P is also known to be released by similar stimuli, NK1 receptors do not appear to play a role in NSIA. The implications of these findings in the context of a proposed spinal circuit that mediates NSIA are discussed.
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PMID:Contribution of spinal glutamatergic mechanisms in heterosegmental antinociception induced by noxious stimulation. 1458 Nov 25

Modern management of fibromyalgia (FM) requires a holistic approach, which includes nonpharmacologic strategies (both exercise and behavioral strategies) and pharmacologic treatment. Despite only partial effects in some patients, tricyclic antidepressants, selective serotonin reuptake inhibitors, nonsteroidal antiinflammatory drugs, analgesics and opioids are in use. The use of antiepileptic drugs and antispasticity agents is mainly supported by anecdotal data. Three other classes of agents are currently thought to have useful potentials. N-methyl-D-aspartate-(NMDA-)mediated neurotransmission may play an important role in mediating wind-up and related phenomena in pain pathways. Recent studies have demonstrated that NMDA receptor antagonists improve pain symptoms in FM. But a poor side effect profile represents a significant problem. Cerebrospinal fluid substance P concentrations are significantly elevated in FM patients, but the analgesic potential of neurokinin-1 (NK1) receptor antagonists did not meet early expectations. Tropisetron, a 5-HT3 receptor antagonist, was tested in a multicenter, double-blind, randomized, placebo-controlled trial including 403 patients. In those receiving 5 mg tropisetron, 39.2% fulfilled the response criterion (pain reduction 35%) as compared to 26.2% in the placebo group (p=0.033). On 10 and 15 mg, the responder rates were smaller and statistically not significant. A total of 78 responders to therapy were followed up for 12 months. After the end of treatment, pain intensity rose within one month in all 4 groups. Patients having received 5 or 10 mg showed a less pronounced increase in pain. In addition, even 12 months after stopping treatment, pain was still markedly below baseline levels in the 5 and 10 mg groups.
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PMID:[What's new in the therapy of fibromyalgia?]. 1464 17

Previously, we reported that the injection of capsaicin into the lateral cerebroventricle (i.c.v.) stimulated gastric acid secretion via vanilloid VR1 receptors and the vagal cholinergic pathways in anesthetized rats. In the present study, we investigated the involvement of receptor systems for neurokinin A, calcitonin gene-related peptide (CGRP) and glutamate in the vanilloid VR1 receptor-mediated response. The i.c.v. injection of neurokinin A (30 nmol) stimulated gastric acid secretion in the presence of cis-2-(diphenylmethyl)-N-[(2-iodophenyl)methyl]-1-azabicyclo[2.2.2]octan-3-amine oxalate (L-703606, a tachykinin NK1 receptor antagonist, 30 nmol) and the effect was inhibited by cyclo[Gln-Trp-Phe-Gly-Leu-Met] (L-659877, a tachykinin NK2 receptor antagonist, 30 nmol); the values were 145.9 +/- 32.3 and 21.1 +/- 16.6 microEq HCl per 120 min, respectively. The value in the control group was 14.3 +/- 3.8 microEq HCl. The tachykinin NK2 receptor-mediated secretion was inhibited by i.c.v. injections of antagonists of the CGRP1 receptor (human CGRP fragment 8-37, 15 nmol) and non-N-methyl-D-aspartate (non-NMDA)-type glutamate receptor (6-cyano-7-nitroquinoxaline-2,3-dione, 10.9 nmol); the values were 30.8+/-29.8 and 5.7+/-16.9 microEq HCl, respectively. Gastric acid secretion induced by the i.c.v. injection of 30 nmol capsaicin (178.4 +/- 34.0 microEq HCl) was inhibited by antagonists of tachykinin NK2 (23.7 +/- 6.2) and CGRP1 (21.2 +/- 8.5), but not tachykinin NK1 (181.4 +/- 37.0), receptors. The gastric acid secretion induced by capsaicin was decreased by the i.c.v. pre-injection of low doses of neurokinin A or CGRP, which alone had no effect on the secretion. These findings suggest the involvement of tachykinin NK2, CGRP and non-NMDA receptor systems in the vanilloid VR1 receptor-mediated regulation of gastric acid secretion in the rat brain regions close to the lateral cerebroventricle.
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PMID:Role of neuropeptide receptor systems in vanilloid VR1 receptor-mediated gastric acid secretion in rat brain. 1498 54

We have previously shown that spermine, a basic polyamine, and big dynorphin, a basic polypeptide, induce nociceptive behavior if injected intrathecally (i.t.) in mice (see [Pain 86 (2000) 55-61] and [Brain Res. 952 (2002) 7-14]). This suggests that other basic molecules might have the same effects. Here, i.t. administration of poly-L-lysine (12 and 36 pg) to mice was found to produce the same characteristic behavioral response, biting and/or licking of the hindpaw and the tail along with slight hindlimb scratching directed toward the flank, which peaked at 0-10 min after injection. The behavior induced by poly-L-lysine (12 pg) was dose-dependently inhibited by intraperitoneal injection of morphine (0.25-4 mg/kg) and also dose-dependently, by i.t. co-administration of D-(-)-2-amino-5-phosphonovaleric acid (D-APV) (1-4 nmol), a competitive N-methyl-D-aspartate (NMDA) receptor antagonist, (5R,10S)-(+)-5-methyl-10,11-dihydro-5H-dibenzo[a,d]cycloheptene-5,10-imine hydrogen maleate (MK-801) (0.0156-4 nmol), an NMDA ion-channel blocker, and ifenprodil (2-8 nmol), an antagonist of the polyamine recognition site and the NR2B-containing NMDA receptor subtype. On the other hand, 6-cyano-7-nitroquinoxaline-2,3-dione (CNQX), a non-NMDA glutamate receptor antagonist, 7-chlorokynurenic acid, a competitive antagonist of the glycine recognition site on the NMDA receptor ion-channel complex, [D-Phe7, d-His9]-substance P (6-11), a specific antagonist for substance P (NK1) receptors, or MEN-10,376, a tachykinin NK2 receptor antagonist, had no effect. These results confirm the observations obtained with other basic molecules and suggest that the behavior induced by poly-l-lysine is mediated through the activation of the NMDA receptor ion-channel complex acting either on the polyamine recognition site or on the NR2B subunit.
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PMID:Nociceptive behavior induced by poly-L-lysine and other basic compounds involves the spinal NMDA receptors. 1508 81

Elevated plasma levels of the neuropeptide substance P (SP) precede the perivascular inflammatory infiltrate seen in hearts of Mg(2+)-deficient (MgD) animals. The N-methyl-d-aspartate (NMDA) receptor is found in neurons, and activation of this receptor participates in SP release; under normal circumstances, this release can be blocked by Mg(2+). Therefore, we reasoned that blockade of the NMDA receptor with dizolcipine maleate (a noncompetitive NMDA receptor antagonist) would prevent SP release from C-fibers due to MgD. In this study, animals were implanted with slow-release pellets containing dizolcipine or placebo and were fed with diet sufficient in Mg(2+) or deficient with only 9% of USDA-recommended Mg(2+). SP immunostaining of dorsal root ganglia showed a time-dependent depletion of SP in the MgD animals, with a dramatic decrease of SP by week 2; this depletion was prevented by pretreatment with dizolcipine maleate. The significant increase in plasma prostaglandin E(2) levels during MgD was prevented by dizolcipine, and the loss of total red blood cell glutathione content was significantly attenuated by NMDA blockade after 3 weeks of MgD (p < 0.01 versus controls). Immunohistochemical and Western blot analyses of ventricular tissue demonstrated that NMDA receptor blockade abolished MgD-related increase of endothelium adhesion molecule CD54 (weeks 1 and 2; p < 0.05), and of monocyte/macrophage surface protein CD11b expression (week 3; p < 0.05). We conclude that NMDA receptor blockade with dizolcipine maleate prevented SP depletion and reduced perivascular inflammatory infiltrates, thus decreasing cardiac injury due to Mg(2+) deficiency.
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PMID:N-methyl-D-aspartate receptor blockade inhibits cardiac inflammation in the Mg2+-deficient rat. 1516 28

Mechanical forces influence articular cartilage structure by regulating chondrocyte activity. Mechanical stimulation results in activation of an alpha5beta1 integrin dependent intracellular signal cascade involving focal adhesion kinase and protein kinase C, triggering the release of interleukin-4 from the cell. In normal HAC the response to physiological mechanical stimulation is characterised by increased levels of aggrecan mRNA and a decrease in levels of mRNA for matrix metalloproteinase 3 (MMP-3), the net result of which would be to maintain and optimise cartilage structure and function. This protective/anabolic response is not seen when chondrocytes from osteoarthritic cartilage are subjected to an identical mechanical stimulation regime. Following the observation that the neurotransmitter substance P is involved in chondrocyte mechanotransduction the present study was undertaken to establish potential roles for glutamate receptors in the control of chondrocyte mechanical responses. Using immunohistochemistry and RTPCR normal and OA chondrocytes are shown to express NR1 and NR2a subunits of the NMDA receptor. Addition of NMDA receptor agonists to chondrocytes in primary culture resulted in changes in membrane potential consistent with expression of functional receptors. NMDA receptor antagonists inhibited the hyperpolarisation response of normal chondrocytes to mechanical stimulation but had no effect on the depolarisation response of osteoarthritic chondrocytes to mechanical stimulation. These studies indicate that at least one subset of the NMDA receptor family of molecules is expressed in cartilage and may have important modulatory effects on mechanotransduction and cellular responses following mechanical stimulation. Indeed the results suggest that there is an alteration of NMDA receptor signalling in OA chondrocytes, which may be critical in the abnormal response of OA chondrocytes to mechanical stimulation. Thus NMDA receptors appear to be involved in the regulation of human articular chondrocyte responses to mechanical stimulation, and in OA, mechanotransduction pathways may be modified as a result of altered activation and function of these receptors.
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PMID:NMDA receptor expression and roles in human articular chondrocyte mechanotransduction. 1529 60

The aim of the present microdialysis study was to investigate whether the increase in striatal glutamate levels induced by intrastriatal perfusion with NMDA was dependent on the activation of extrastriatal loops and/or endogenous striatal substance P and dopamine. The NMDA-evoked striatal glutamate release was mediated by selective activation of the NMDA receptor-channel complex and action potential propagation, as it was prevented by local perfusion with dizocilpine and tetrodotoxin, respectively. Tetrodotoxin and bicuculline, perfused distally in the substantia nigra reticulata, prevented the NMDA-evoked striatal glutamate release, suggesting its dependence on ongoing neuronal activity and GABA(A) receptor activation, respectively, in the substantia nigra. The NMDA-evoked glutamate release was also dependent on striatal substance P and dopamine, as it was antagonized by intrastriatal perfusion with selective NK(1) (SR140333), D(1)-like (SCH23390) and D(2)-like (raclopride) receptor antagonists, as well as by striatal dopamine depletion. Furthermore, impairment of dopaminergic transmission unmasked a glutamatergic stimulation by submicromolar NMDA concentrations. We conclude that in vivo the NMDA-evoked striatal glutamate release is mediated by activation of striatofugal GABAergic neurons and requires activation of striatal NK(1) and dopamine receptors. Endogenous striatal dopamine inhibits or potentiates the NMDA action depending on the strength of the excitatory stimulus (i.e. the NMDA concentration).
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PMID:Striatal glutamate release evoked in vivo by NMDA is dependent upon ongoing neuronal activity in the substantia nigra, endogenous striatal substance P and dopamine. 1577 19

Morphine is recommended by WHO as the analgesic of choice for effective treatment of moderate to severe cancer pain . Indeed spinally administered morphine at small doses injected intrathecally (i.t.) or intracerebroventricularly into animals produces a profound antinociception at both spinal and supraspinal sites. Conversely, high doses of spinally administered morphine elicit a series of scratching, biting and licking in mice, and vocalization and agitation in rats, indicative of a spontaneous nociceptive behavioural response. Hyperalgesia and allodynia are also induced by such morphine treatment in humans as well as animals. These behaviours are not an opioid receptor-mediated event. This article will review the potential mechanisms of spinally mediated nociceptive behaviour evoked by i.t. morphine at high concentrations. We will discuss a possible presynaptic release of nociceptive neurotransmitters/neuromodulators (e.g., substance P, glutamate and dynorphin) in the primary afferent fibers following i.t. high-dose morphine. There must be an intimate interaction of i.t. high-dose morphine with tachykinin neurokinin 1 (NK1) receptors and multiple sites on the N-methyl-D-aspartate (NMDA) receptor complex in the dorsal spinal cord. Since the effect of NMDA receptor activation and the associated Ca2+ influx results in production of nitric oxide (NO) by activation of NO synthase, it seems that spinal NO also plays an important role in nociception evoked by i.t. high-dose morphine. Morphine-3-glucuronide, one of the major metabolites of morphine, has been found to evoke nociceptive behaviour similar to that of i.t. high-dose morphine. It is plausible that morphine-3-glucuronide may be responsible for nociception seen after i.t. high-dose morphine treatment. The demonstration of neural mechanism underlying morphine-induced nociception provides a pharmacological basis for improved pain management with morphine at high doses.
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PMID:Mechanisms of nociception evoked by intrathecal high-dose morphine. 1593 20

Glutamate participates in the regulation of secretion of several neuropeptides, including substance P (SP). Glutamate acts through ionotropic (iGluR) and metabotropic (mGluR) receptors. We have investigated whether glutamate receptor agonists and antagonists could affect SP release from the arcuate nucleus and the median eminence (ARC/ME). An increase in SP-like immunoreactivity (SP-LI) release from ARC/ME was induced by glutamate and N-methyl-D-aspartate (NMDA). This increase was prevented by D-(-)-2-amino-5-phosphono pentanoic acid (DAP5) (0.1mM), a specific NMDA antagonist and by (RS)-1-aminoindan-1,5-dicarboxylic acid (AIDA) (0.1 mM), a selective antagonist of group I mGluR. The selective non-NMDA receptor antagonist 6,7-dinitroquinoxaline-2,3(1H-4H)-dione (DNQX) (0.1mM) and (RS)-alpha-methyl-4-tetrazolylphenylglycine (MTPG) (0.1 mM), a group II and III mGluRs antagonist, did not affect the stimulatory effect of glutamate. A group I selective agonist, (S)-3,5-dihydroxyphenylglycine (DHPG) induced a significant increase in SP-LI release. Supporting the participation of nitric oxide (NO) in the effect of glutamate on SP-LI release, NAME (0.5 mM), a NO synthase inhibitor, reduced the glutamate-induced increase in SP-LI release from ARC/ME. Similarly, glutamate did not induce an increase in SP-LI release in the presence of meloxicam (0.1 mM) (a cyclooxygenase-2 (COX-2) specific inhibitor) indicating that prostaglandins production may also be involved in the glutamate effect. These data indicate that glutamate increases SP-LI release from the ARC/ME by acting through NMDA and group I mGluRs in the male rat. This stimulatory effect could be mediated by nitric oxide and prostaglandin production.
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PMID:NMDA and group I metabotropic glutamate receptors activation modulates substance P release from the arcuate nucleus and median eminence. 1622 74


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