UMLS:C0030193 - FACTA Search

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Query: UMLS:C0030193 (pain)
261,466 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Increased pain sensitivity (hyperalgesia) and persistent nociception following peripheral tissue injury depends both on an increase in the sensitivity of primary afferent nociceptors at the site of injury (peripheral sensitization), and on an increase in the excitability of neurons in the central nervous system (central sensitization). We will review evidence that central sensitization, and the persistent nociception it leads to, are dependent on an action of glutamate and aspartate at excitatory amino acid (EAA) receptors. Additional evidence will be presented implicating a role of various intracellular second messengers that are coupled to EAA receptors (nitric oxide, arachidonic acid, and protein kinase C) to central sensitization and persistent nociception following tissue injury. Finally, we will examine the evidence for a contribution of molecular events, including noxious stimulus-induced expression of immediate-early genes such as c-fos to persistent nociception.
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PMID:The role of excitatory amino acid receptors and intracellular messengers in persistent nociception after tissue injury in rats. 791 27

In order to investigate the involvement of glutamate receptor systems in allodynia induced by prostaglandin (PG) E2 or F2 alpha, we co-administered antagonists for N-methyl-D-aspartate (NMDA), non-NMDA, or metabotropic glutamate receptors intrathecally with PGE2 or PGF2 alpha and examined their effects on the allodynia evoked in conscious mice by non-noxious brushing of the flanks. MK-801, a non-competitive NMDA receptor channel blocker, and D-AP-5, a selective NMDA receptor antagonist, dose-dependently blocked PGE2-induced allodynia with an IC50 of 1.60 and 0.52 microgram/mouse, respectively. A glycine binding-site antagonist for the NMDA receptor, 7-Cl-KYNA, did not influence it. None of these NMDA receptor antagonists inhibited PGF2 alpha-evoked allodynia. Non-NMDA receptor antagonists GAMS and CNQX inhibited both PGE2- and PGF2 alpha-induced allodynia. On the other hand, L-AP-3 and L-AP-4, putative metabotropic glutamate receptor antagonists, dose-dependently antagonized the allodynia induced by PGF2 alpha with an IC50 of 0.92 and 3.26 ng/mouse, respectively, but not that induced by PGE2. Intrathecal administration of L-glutamate produced allodynia over a wide range of low doses from 0.1 pg to 0.1 microgram/mouse, and the maximal effect was observed at 1 ng. Similar to allodynia induced by prostaglandins, the response lasted over a 50-min experimental period. These results demonstrate that both PGE2- and PGF2 alpha-evoked allodynia are mediated through a pathway that includes the glutamate receptor system but that subtypes of glutamate receptors involved and sites of action in the spinal cord may be different between them.
Pain 1994 May
PMID:Involvement of glutamate receptors in allodynia induced by prostaglandins E2 and F2 alpha injected into conscious mice. 791 53

Perhaps as many as 25-50% of adult patients and children with acquired immunodeficiency syndrome (AIDS) eventually suffer from neurological manifestations, including dysfunction of cognition, movement, and sensation. How can human immunodeficiency virus type 1 (HIV-1) result in neuronal damage if neurons themselves are for all intents and purposes not infected by the virus? This article reviews a series of experiments leading to a hypothesis that accounts at least in part for the neurotoxicity observed in the brains of AIDS patients. There is growing support for the existence of HIV- or immune-related toxins that lead indirectly to the injury or demise of neurons via a potentially complex web of interactions among macrophages (or microglia), astrocytes, and neurons. HIV-infected monocytoid cells (macrophages, microglia, or monocytes), after interacting with astrocytes, secrete eicosanoids, i.e., arachidonic acid and its metabolites, including platelet-activating factor. Macrophages activated by HIV-1 envelope protein gp120 also appear to release arachidonic acid and its metabolites. In addition, interferon-gamma (IFN-gamma) stimulation of macrophages induces release of the glutamate-like agonist, quinolinate. Furthermore, HIV-infected macrophage production of cytokines, including TNF-alpha and IL1-beta, contributes to astrogliosis. A final common pathway for neuronal susceptibility appears to be operative, similar to that observed in stroke, trauma, epilepsy, neuropathic pain, and several neurodegenerative diseases, possibly including Huntington's disease, Parkinson's disease, and amyotrophic lateral sclerosis. This mechanism involves the activation of voltage-dependent Ca2+ channels and N-methyl-D-aspartate (NMDA) receptor-operated channels, and, therefore, offers hope for future pharmacological intervention. This article focuses on clinically tolerated calcium channel antagonists and NMDA antagonists with the potential for trials in humans with AIDS dementia in the near future.
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PMID:HIV-related neuronal injury. Potential therapeutic intervention with calcium channel antagonists and NMDA antagonists. 799 15

L-glutamic acid, bicuculline (a GABA receptor antagonist), lidocaine and GABA were injected into entopeduncular and habenular nuclei respectively in rats. Pain threshold was measured by the latency of avoidance response (tail-flick) elicited by radiant heat exposure before and after intracerebral injection. Microinjection of different concentration of L-glutamic acid (25 nmol/L.0.5 microliter-1, 50 nmol/L.0.5 microliter-1, 100 nmol/L.0.5 microliter-1) into bilateral entopeduncular nuclei resulted in increases of pain threshold in a dose-dependent manner. Similar increase of pain threshold could also be observed by microinjection of 200 nmol/L GABA.0.5 microliter-1 into bilateral habenular nuclei. Both the effect of GABA and that of glutamate, could be antagonized by 0.2% bicuculline. The results mentioned above indicate that GABAergic fibers are involved in the analgesic effect of entopeduncular-habenular complex.
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PMID:[The role on the analgesia of entopeduncular nucleus]. 810 14

The effect of taurine on nociception was investigated in adult male Swiss mice using the formalin and acetic acid tests. Taurine (50-200 mg/kg) injected sc into the animals (N = 6 per group) 30 min before formalin injection into the right hind paw reduced formalin-induced early phase (0-5 min) licking activity by 30-42%, but had no effect on the late phase (20-25 min) response. Writhing responses induced by acetic acid injected ip were also significantly inhibited by 49% and 56% by doses of 100 and 200 mg/kg taurine, respectively. In both tests taurine demonstrated antinociception which was significantly blocked by naloxone (1 mg/kg, sc, administered simultaneously with taurine). The naloxone-sensitive antinociceptive action of taurine was probably mediated via modulation of endogenous pain-regulatory systems that involve opioid peptides, neuropeptides like substance P and amino acids such as glutamate and aspartate.
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PMID:Taurine modulates chemical nociception in mice. 813 33

We have previously demonstrated that the nucleus raphe magnus (NRM) sends a predominantly inhibitory projection to the lateral reticular nucleus (LRN); however, the pharmacology of this pathway is not known. The purpose of this study was to examine the role of norepinephrine in the NRM-LRN system using both electrophysiological and behavioral techniques. Sixty-nine LRN cells were recorded extracellularly. Cells were tested for their response to noxious and innocuous peripheral stimulation applied to the dorsal body surface. The majority of cells were classified as wide dynamic range, with inhibition being the predominant response; receptive fields were located primarily on the tail and hind limbs. The effect of excitatory amino acid glutamate (GLU) administration into NRM (GLU-NRM) was tested on all 69 cells. GLU-NRM inhibited 55 of 69 LRN cells tested; 7 cells were excited and 7 cells did not respond. Thirty-nine LRN cells were tested for their response to norepinephrine (NE) iontophoretically applied in LRN (NE-LRN). Two distinct types of effects were noted. In 9 cells, both NE-LRN and GLU-NRM produced a strong inhibition, with the magnitude of effect between the 2 drugs significantly correlated. In a second group of cells (n = 12), GLU-NRM produced an inhibitory effect while NE-LRN had no effect on the cells' baseline firing rate. However, when the 2 drugs were applied simultaneously, NE-LRN blocked the inhibitory effects of NRM stimulation. The effect of the alpha 2-receptor antagonist yohimbine (YOH) on NRM-evoked responses was tested in 30 LRN cells. The majority of these cells were inhibited by GLU-NRM. Similar to the dichotomous effect noted by NE-LRN, YOH applied iontophoretically in LRN (YOH-LRN) had two predominant effects on NRM-produced inhibition. In 14 of 27 cells, YOH-LRN significantly potentiated the inhibitory effects of NRM stimulation by increasing the duration of the inhibitory epoch an average of 100 sec. In 7 of 27 cells, YOH directly applied in LRN partially antagonized NRM-evoked inhibition. In a second series of experiments, microinjection cannulas were placed within NRM and LRN in order to determine the effect of blocking alpha 2-receptor activity within LRN on NRM stimulation-produced analgesia in an intact animal. Administration of D,L-homocysteic acid in NRM resulted in a significant increase in baseline tail-flick latency of approximately 140%. Pretreatment with YOH (3 micrograms in 0.5 microliter) in LRN resulted in a significant potentiation of this analgesic effect.(ABSTRACT TRUNCATED AT 400 WORDS)
Pain 1993 Nov
PMID:Role of norepinephrine in the interaction between the lateral reticular nucleus and the nucleus raphe magnus: an electrophysiological and behavioral study. 830 8

Clonidine and glutamate were applied by iontophoresis to cells in the superficial 3 laminae of the spinal cord in the anaesthetised rat. Only cells that were excited by glutamate (up to 150 nA) were studied. Some spontaneously active cells could be excited by clonidine (up to 100 nA). However, when applied to non-spontaneous cells, clonidine had no effect at any dose level. When ejected in a cyclic pattern alternating with glutamate ejection, clonidine powerfully amplified the response of many cells to the glutamate stimulus. This effect was seen only on cells with small-amplitude spikes and low-threshold (LT) receptive fields. The amplification was often sustained and could outlast the clonidine ejection by several minutes. Clonidine had a long-lasting inhibitory effect on the responses to glutamate of cells with high-threshold (HT) or wide-dynamic-range (WDR) receptive fields. Clonidine appeared to selectively decrease the responsiveness of WDR cells to noxious stimulation. It is suggested that an amplification of the response of LT cells to other excitatory inputs could contribute to the analgesic action of clonidine.
Pain 1993 May
PMID:The effects of iontophoretic clonidine on neurones in the rat superficial dorsal horn. 833 84

5-Chloro-7-trifluoromethyl-1,4-dihydro-2,3-quinoxalinedione (ACEA-1011) has analgesic properties in animal models of tonic pain. To investigate the mechanisms underlying this effect we used electrical recording techniques to characterize the in vitro pharmacology of ACEA-1011 at mammalian glutamate receptors. Two preparations were used: Xenopus oocytes expressing rat brain receptors and cultured rat cortical neurons. Results showed that ACEA-1011 is a competitive antagonist at NMDA receptor glycine sites. Apparent antagonist affinities (Kb values) were 0.4 to 0.8 microM in oocytes and approximately 0.6 microM in neurons. IC50 values for ACEA-1011 against four binary subunit combinations of cloned rat NMDA receptors (NR1A/NR2A, 2B, 2C or 2D) ranged from 0.4 to 8 microM (1 microM glycine). The 20-fold variation in sensitivity was due to a combination of subunit-dependent differences in glycine and antagonist affinities; EC50 values for glycine ranged between 0.08 to 0.8 microM and Kb values for ACEA-1011 between 0.2 to 0.8 microM. In addition, ACEA-1011 inhibited AMPA-preferring non-NMDA receptors by competitive antagonism at glutamate binding sites. Kb values were 4 to 9 microM in oocytes and 9 to 10 microM in neurons. The ED50 for ACEA-1011 in a mouse maximum electroshock-induced seizure model was approximately 12 mg/kg i.v.. Our results indicate that ACEA-1011 is a systemically active broad selectivity ionotropic glutamate receptor antagonist.
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PMID:Pharmacology of 5-chloro-7-trifluoromethyl-1,4-dihydro-2,3-quinoxalinedione: a novel systemically active ionotropic glutamate receptor antagonist. 853 Oct 83

Immunohistochemical staining for the glutamate receptor subtypes N-methyl-D-aspartate (NMDA), kainate, and alpha-amino-3-hydroxy-5-methylisoxazole-4-propionic acid (AMPA) results in a significant number of labeled unmyelinated axons in the glabrous skin of the rat hindpaw. Injection of glutamate into the rat hindpaw results in behavioral changes interpreted as mechanical allodynia and mechanical hyperalgesia. The anatomical findings provide a reasonable explanation for the action of the exogenous peripheral glutamate, namely that activation of these receptors leads to increased primary afferent activity in unmyelinated axons and thus to pain behaviors. AMPA receptors are frequently associated with small clear vesicles in the axoplasm of the unmyelinated axons, many of which have been previously shown to contain high concentrations of glutamate. This finding indicates that these might be autoreceptors and so glutamate itself might regulate certain types of peripheral impulse traffic. The presence of peripheral glutamate receptors associated with unmyelinated axons suggests the possibility that glutamate antagonists applied peripherally might prevent or attenuate some pain-related behaviors.
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PMID:Localization and activation of glutamate receptors in unmyelinated axons of rat glabrous skin. 854 47

During 30 days of thiamine deficiency (TD) feeding, the rat antinociceptive effect (pain threshold) to noxious heat stimulation was significantly increased in proportion to the decrease substance P (SP) fluorescent intensity in the spinal cord. Only a single injection of thiamine HCl (0.5 mg/kg, s.c.) on the early treatment day during TD feeding effectively reversed the analgesic effect to the pair-fed control level. Whereas this reversal effect by thiamine treatment was not found if this treatment was done on the relatively late day. However, either treatment day, except muricide, complete disappearance of various animal behaviours induced by TD was found. These results indicate that, after certain degree of TD development, TD-induced behavioral effects might be reversible, but the afferent nerve fibers might be irreversibly damaged, probably by the similar mechanism as found for an excitotoxin(s) mediated injury in the certain brain region(s). The results also suggest a possibility that SP and an excitotoxin, glutamate, in the dorsal part of the spinal cord greatly contribute to the pain transmission induced by noxious heat stimulation.
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PMID:Immunohistochemical determination of rat spinal cord substance P, and antinociceptive effect during development of thiamine deficiency. 857 71

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