UNIPROT:P20366 - FACTA Search

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)

Drimanial, a new sesquiterpene isolated from the barks of the plant Drimys winteri (Winteraceae), given systemically, intraplantarly, or by spinal or supraspinal routes, produced pronounced antinociception against both phases of formalin-induced licking. The systemic injection of drimanial also inhibited, in a graded manner, the pain-related behaviours induced by intraplantar or intrathecal (i.t.) administration of glutamate. Moreover, drimanial also caused marked inhibition of the nociception induced by i.t. administration of a metabotropic glutamate agonist (1S,3R)-ACPD, without affecting nociceptive responses induced by ionotropic agonists (NMDA, kainate, AMPA) or by substance P. The antinociception caused by drimanial was not influenced by naloxone, nor did it interfere with the motor coordination of animals in the rota-rod test. Furthermore, drimanial caused graded inhibition of [(3)H]glutamate binding in cerebral cortical membranes from mice, with an IC(50) value of 4.39 micro M. Together, these results provide strong evidence indicating that the sesquiterpene drimanial produces antinociception in mice at peripheral, spinal and supraspinal sites. An interaction with metabotropic glutamate receptors seems to contribute to the mechanisms underlying its antinociceptive action.
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PMID:Evidence for the involvement of glutamatergic receptors in the antinociception caused in mice by the sesquiterpene drimanial. 1224 63

Uncoupling protein 2 (UCP2) is a mitochondrial protonophore that regulates cellular energy homeostasis. In this study, we explored the expression of UCP2 in the spinal cord. UCP2 was expressed in the substantia gelatinosa and ventral horn of the rodent and primate spinal cord. In all of these areas, UCP2 expression was associated with axons and axon terminals and direct appositions between UCP2-immunoreactive fibers and NMDA glutamate receptors-containing perikarya were frequently detected. All of the UCP2-labeled processes were also immunoreactive for substance P. The expression of UCP2 in primary sensory afferents of the spinal cord suggests that this mitochondrial uncoupler is involved in the mechanism of pain and temperature sensation.
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PMID:Uncoupling protein 2 in primary pain and temperature afferents of the spinal cord. 1241 45

Nocifensive behaviors induced by the intradermal injection of three different P2X receptor agonists, ATP, BzATP or alpha,beta-meATP, into a hindpaw were measured in rats that were injected intrathecally with either an NMDA (MK-801) or an NK-1 (L-703,606) receptor antagonist or were pretreated systemically with the VR1 agonist resiniferatoxin (RTX). The same procedures were performed in animals injected intradermally with either capsaicin or formalin. Spinal infusion of MK-801 (10-50 nmol/10 micro l) similarly reduced the number of nociceptive events triggered by each of the P2X agonists and was also effective against capsaicin and formalin induced behaviors. Intrathecal administration of L-703,606 (50-100 nmol/10 micro l) had its greatest antinociceptive effect against capsaicin-induced behaviors followed by ATP and BzATP. L-703,606 was completely ineffective against behaviors induced by formalin or the other P2X agonist, alpha,beta-meATP. Pretreatment with RTX 2 days prior to testing significantly decreased the number of nociceptive events caused by each of the P2X agonists as well as capsaicin and formalin (capsaicin>BzATP>ATP>formalin>alpha,beta-meATP). The remaining nociceptive events in RTX animals injected with alpha,beta-meATP were significantly higher than in animals injected with either ATP or BzATP. Intradermal administration of different P2X receptor agonists induced similar levels of nocifensive behaviors and activity at spinal NMDA receptors. Capsaicin-sensitive fibers were likely activated following injection of BzATP and ATP, but not alpha,beta-meATP, and appeared to trigger the spinal release of substance P. The differences in mechanisms employed by the different P2X agonists may be a function of respective selectivity for P2X receptor subtypes.
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PMID:Distinct neurochemical mechanisms are activated following administration of different P2X receptor agonists into the hindpaw of a rat. 1259 Nov 37

Functional dyspepsia is a clinical syndrome defined by chronic or recurrent pain or discomfort in the upper abdomen of unknown origin. Although generally accepted, investigators differently interpret this definition and clinical trials are often biased by inhomogeneous inclusion criteria. The poorly defined multifactorial pathogenesis of dyspeptic symptoms has hampered efforts to develop effective treatments. A general agreement exists on the irrelevant role played by Helicobacter pylori in the pathophysiology of functional dyspepsia. Gastric acid secretion is within normal limits in patients with functional dyspepsia but acid related symptoms may arise in a subgroup of them. Proton pump inhibitors appear to be effective in this subset of patients with dyspepsia. Non-painful dyspeptic symptoms are suggestive of underlying gastrointestinal motor disorders and such abnormalities can be demonstrated in a substantial proportion of patients. Postprandial fullness and vomiting have been associated with delayed gastric emptying of solids, and early satiety and weight loss to postcibal impaired accommodation of the gastric fundus. Prokinetics have been shown to exert beneficial effects, at least in some patients with dyspepsia. In contrast, drugs enhancing gastric fundus relaxation have been reported to improve symptoms, although conflicting results have also been published. An overdistended antrum may also generate symptoms, but its potential pathogenetic role and the effects of drugs on this abnormality have never been investigated formally. Visceral hypersensitivity plays a role in some dyspeptic patients and this abnormality is also a potential target for treatment. Both chemo- and mechanoreceptors can trigger hyperalgesic responses. Psychosocial abnormalities have been consistently found in functional digestive syndromes, including dyspepsia. Although useful in patients with irritable bowel syndromes (IBS), antidepressants have been only marginally explored in functional dyspepsia. Among the new potentially useful agents for the treatment of functional dyspepsia, serotonin 5-HT(4) receptor agonists have been shown to exert a prokinetic effect. Unlike motilides, 5-HT(4) receptor agonists do not appear to increase the gastric fundus tone and this may contribute to improve symptoms. 5-HT(3) receptor antagonists have been investigated mainly in the IBS and the few studies performed in functional dyspepsia have provided conflicting results. Also, kappa-opioid receptor agonists might be useful for functional digestive syndromes because of their antinociceptive effects, but available results in functional dyspepsia are scanty and inconclusive. Other receptors that represent potential clinical targets for antagonists include purinoceptors (i. e., P2X2/3 receptors), NMDA receptors (NR2B subtype), protease-activated receptor-2, the vanilloid receptor-1, tachykinin receptors (NK(1)/NK(2)) and cholecystokinin (CCK)(1) receptors.
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PMID:New developments in the treatment of functional dyspepsia. 1267 73

The generation of hyperalgesia by Phoneutria nigriventer venom was investigated in rats using the paw pressure test, through the intraplantar injection of the venom. Hyperalgesia was significantly inhibited by N-[2-(4-chlorophenyl) ethyl]-1,3,4,5-tetrahydro-7,8-dihydroxy-2H-2-benzazepine-2-carbothioamide (capsazepine), a vanilloid receptor antagonist, by the local administration of pGlu-Ala-Asp-Pro-Asn-Lys-Phe-Tyr-Pro (spiro-gamma-lactam) Leu-Trp-NH(2) (GR82334) or of Phenyl-CO-Ala-Ala-D-Trp-Phe-D-Pro-Pro-Nle-NH(2) (GR94800), inhibitors of tachykinin NK(1) and NK(2) receptors, respectively, or by the local injection of dizocilpine (MK 801), (+/-)-2-amino-5-phosphonopentanoic acid ((+/-)-AP-5), or 6-cyano-7-nitroquinoxaline-2,3-dione (CNQX), antagonists of NMDA and non-NMDA excitatory amino acid receptors. The correlation between hyperalgesia and the inflammatory response induced by the venom was also investigated. The venom-induced edematogenic response was not modified by the pharmacological treatments. These results suggest that hyperalgesia induced by P. nigriventer venom is mediated by stimulation of capsaicin-sensitive neurons, with activation of peripheral tachykinin NK(1) and NK(2) receptors and of both the NMDA and AMPA receptors. Distinct mechanisms are involved in the development of hyperalgesia and edema induced by the venom.
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PMID:Peripheral tackykinin and excitatory amino acid receptors mediate hyperalgesia induced by Phoneutria nigriventer venom. 1270 63

Substance P (SP) acts as a transmitter of nociception in both the peripheral and the central nervous system. Because the NK-1 receptors in gerbils are comparable to those in humans, gerbil models could be used to study the role of SP in neuropathic pain. A modification of the rat chronic constriction injury (CCI) model of neuropathic pain was produced in male gerbils by placing four loose chromic catgut ligatures around the sciatic nerve. This procedure clearly resulted in mechanical hypersensitivity. Intraplantar injections of SP and the selective NK-1 receptor agonist, [Sar(9)-Met(O(2))(11)]-substance P (Sar-SP), to the paw ipsilateral to the nerve injury and intrathecal administration of these peptides produced paw-lifting behavior in the CCI gerbils in thermoneutral conditions. In sham-operated and nonoperated controls, no such effects were observed. Systemic administration of the NK-1 antagonist R116301 attenuated the SP and the Sar-SP-induced paw-lifting behavior in the CCI gerbils indicating the role of NK-1 receptors in these effects. Intraplantar injection of the highest dose of SP (200 ng) to the paw contralateral to the CCI produced lifting of the paw ipsilateral to the injury, indicative for spinal mechanisms especially since administration of SP to the ipsilateral front paw or even intracardially did not have any effect at all. The SP-induced responses were not antagonized by the NMDA antagonist MK801. These results indicate that the peripheral and spinal SP reveal an increased reactivity in a neuropathic pain model. This increased pain sensitivity seems to involve spinal NK-1 mechanisms.
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PMID:Functional role of exogenous administration of substance P in chronic constriction injury model of neuropathic pain in gerbils. 1367 13

Using an in vitro microsuperfusion procedure, the NMDA-evoked release of [3H]ACh was studied after suppression of dopamine (DA) transmission (alpha-methyl-p-tyrosine) in striatal compartments of the rat. The effects of tachykinin neurokinin 1 (NK1) receptor antagonists and the ability of appropriate agonists to counteract the antagonist responses were investigated to determine whether tachykinin NK1 classic, septide-sensitive and/or new NK1-sensitive receptors mediate these regulations. The NK1 antagonists, SR140333, SSR240600, GR205171 but not GR82334 and RP67580 (0.1 and 1 microM) markedly reduced the NMDA (1 mm + D-serine 10 microM)-evoked release of [3H]ACh only in the matrix. These responses unchanged by coapplication with NMDA of NK2 or NK3 agonists, [Lys5,MeLeu9,Nle10]NKA(4-10) or senktide, respectively, were completely counteracted by the selective NK1 agonist, [Pro9]substance P but also by neurokinin A and neuropeptide K (1 nM each). According to the rank order of potency of agonists for counteracting the antagonist responses ([Pro9]substance P, 0.013 nM > neurokinin A, 0.15 nM >> substance P(6-11) 7.7 nM = septide 8.7 nM), the new NK1-sensitive receptors mediate the facilitation by endogenous tachykinins of the NMDA-evoked release of ACh in the matrix, after suppression of DA transmission. Solely the NK1 antagonists having a high affinity for these receptors could be used as indirect anti-cholinergic agents.
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PMID:The new neurokinin 1-sensitive receptor mediates the facilitation by endogenous tachykinins of the NMDA-evoked release of acetylcholine after suppression of dopaminergic transmission in the matrix of the rat striatum. 1451 Nov 26

To determine what neural pathways trigger opioid release in the dorsal horn, we stimulated the dorsal root, the dorsal horn, or the dorsolateral funiculus (DLF) in spinal cord slices while superfusing them with peptidase inhibitors to prevent opioid degradation. Internalization of mu-opioid receptors (MOR) and neurokinin 1 receptors (NK1R) was measured to assess opioid and neurokinin release, respectively. Dorsal root stimulation at low, high, or mixed frequencies produced abundant NK1R internalization but no MOR internalization, indicating that primary afferents do not release opioids. Moreover, capsaicin and NMDA also failed to produce MOR internalization. In contrast, dorsal horn stimulation elicited MOR internalization that increased with the frequency, being negligible at <10 Hz and maximal at 500 Hz. The internalization was abolished by the MOR antagonist D-Phe-Cys-Tyr-D-Trp-Arg-Thr-Pen-Thr-NH2 (CTAP), in the presence of low Ca2+ and by the Na+ channel blocker lidocaine, confirming that it was caused by opioid release and neuronal firing. DLF stimulation in "oblique" slices (encompassing the DLF and the dorsal horn of T11-L4) produced MOR internalization, but only in areas near the stimulation site. Moreover, cutting oblique slices across the dorsal horn (but not across the DLF) eliminated MOR internalization in areas distal to the cut, indicating that it was produced by signals traveling in the dorsal horn and not via the DLF. These findings demonstrate that some dorsal horn neurons release opioids when they fire at high frequencies, perhaps by integrating signals from the rostral ventromedial medulla, primary afferents, and other areas of the spinal cord.
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PMID:Dorsal horn neurons firing at high frequency, but not primary afferents, release opioid peptides that produce micro-opioid receptor internalization in the rat spinal cord. 1453 51

The stimulation of C-fiber sensory neurons is known to induce activation of the ERK MAP kinase signaling pathway in the spinal cord dorsal horn. In this study we have elucidated some of the signaling components of C-fiber transmission responsible for ERK activation. Using an in vitro slice preparation of the mouse spinal cord dorsal horn, we compared the release of substance P (SP) and BDNF with the activation of ERK in postsynaptic neurons. We observed that primary afferent stimulation recruiting C-fibers was required for both SP and BDNF release and ERK activation in post-synaptic dorsal horn neurons. Glutamate transmission via NMDA and mGluR1 but not AMPA receptors was critical to this ERK activation. BDNF signaling via TrkB receptors but not SP signaling via NK(1) were also involved in ERK recruitment. In conclusion, glutamate and BDNF are the important C-fiber signaling components for ERK activation in dorsal horn neurons.
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PMID:The signaling components of sensory fiber transmission involved in the activation of ERK MAP kinase in the mouse dorsal horn. 1457 51

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

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