Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0030193 (pain)
 261,466 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Glycine exerts multiple functions in the central nervous system, as an inhibitory neurotransmitter through activation of specific, Cl--permeable, ligand-gated ionotropic receptors and as an obligatory co-agonist with glutamate on the activation of N-methyl-D-aspartate (NMDA) receptors. In some areas of the central nervous system, glycine seems to be co-released with gamma-aminobutyric acid (GABA), the main inhibitory amino acid neurotransmitter. The synaptic action of glycine ends by active recapture through sodium- and chloride-coupled glycine transporters located in glial and neuronal plasma membranes, whose structure-function relationship is being studied. The trafficking and plasma membrane expressions of these proteins are controlled by regulatory mechanisms. Glycine transporter inhibitors may find application in the treatment of muscle tone defects, epilepsy, schizophrenia, pain and neurodegenerative disorders. This review deals on recent progress on localization, transport mechanisms, structure, regulation and pharmacology of the glycine transporters (GLYTs).
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PMID:Structure, function and regulation of glycine neurotransporters. 1461 55

Sequencing of the human, mouse, and rat genomes has enabled a comprehensive informatics approach to gene families. This approach is informative for identification of new members of gene families, for cross-species sequence conservation related to functional conservation, for within-species diversity related to functional variation, and for historical effects of selection. This genome informatics approach also focuses our attention on genes whose genomic locations coincide with linkages to phenotypes. We are identifying ionotropic glutamate receptor (IGR) sequence variation by resequencing technologies, including denaturing high-performance liquid chromoatography (dHPLC), for screening and direct sequencing, and by information mining of public (e.g., dbSNP and ENSEMBL) and private (i.e., Celera Discovery System) sequence databases. Each of the 16 known IGRs is represented in these databases, their positions on a canonical physical map (for example, the Celera map) are established, and comparison to mouse and rat sequences has been performed, revealing substantial conservation of these genes, which are located on different chromosomes but found within syntenic groups of genes. A collection of 38 missense variants were identified by the informatics and resequencing approaches in several of these receptor genes, including GRIN2B, GRIN3B, GRIA2, GRIA3, and GRIK1. This represents only a fraction of the sequence variation across these genes, but, in fact, these may constitute a large fraction of the common polymorphisms at these genes, and these polymorphisms are a starting point for understanding the role of these receptors in neurogenetic variation. Genetically influenced human neurobehavioral phenotypes that are likely to be linked to IGR genetic variants include addictions, anxiety/dysphoria disorders, post-brain injury behavioral disorders, schizophrenia, epilepsy, pain perception, learning, and cognition. Thus, the effects of glutamate receptor variation may be protean, and the task of relating variation to behavior difficult. However, functional variants of (1) catechol-O-methyltransferase, (2) serotonin transporter, and (3) brain-derived neurotrophic factor have recently been linked both to behavioral differences and to intermediate phenotypes, suggesting a pathway by which functional variation at IGRs can be tied to an etiologically complex phenotype.
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PMID:Genomics and variation of ionotropic glutamate receptors. 1468 33

Wasabi, horseradish and mustard owe their pungency to isothiocyanate compounds. Topical application of mustard oil (allyl isothiocyanate) to the skin activates underlying sensory nerve endings, thereby producing pain, inflammation and robust hypersensitivity to thermal and mechanical stimuli. Despite their widespread use in both the kitchen and the laboratory, the molecular mechanism through which isothiocyanates mediate their effects remains unknown. Here we show that mustard oil depolarizes a subpopulation of primary sensory neurons that are also activated by capsaicin, the pungent ingredient in chilli peppers, and by Delta(9)-tetrahydrocannabinol (THC), the psychoactive component of marijuana. Both allyl isothiocyanate and THC mediate their excitatory effects by activating ANKTM1, a member of the TRP ion channel family recently implicated in the detection of noxious cold. These findings identify a cellular and molecular target for the pungent action of mustard oils and support an emerging role for TRP channels as ionotropic cannabinoid receptors.
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PMID:Mustard oils and cannabinoids excite sensory nerve fibres through the TRP channel ANKTM1. 1471 38

We have been studying the role of ATP receptors in pain and already reported that activation of P2X(2/3) heteromeric channel/receptor in primary sensory neurons causes acutely tactile allodynia, one hallmark of neuropathic pain. We report here that tactile allodynia under the chronic pain state requires an activation of the P2X(4) ionotropic ATP receptor and p38 mitogen-activated protein kinase (MAPK) in spinal cord microglia. Two weeks after L5 spinal nerve injury, rats displayed a marked mechanical allodynia. In the rats, activated microglia were detected in the injured side of the dorsal horn and the level of the dually-phosphorylated active form of p38MAPK (phospho-p38MAPK) in these microglia was increased. Moreover, intraspinal administration of a p38MAPK inhibitor, SB203580, suppressed the allodynia. We also found that the expression level of P2X(4) was increased strikingly in spinal cord microgila after nerve injury and that pharmacological blockade or inhibition of the expression of P2X(4) reversed the allodynia. Taken together, our results demonstrate that activation of P2X(4) or p38MAPK in spinal cord microglia is necessary for tactile allodynia after nerve injury.
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PMID:ATP- and adenosine-mediated signaling in the central nervous system: chronic pain and microglia: involvement of the ATP receptor P2X4. 1497 47

Glutamate (GLU) is the main excitatory neurotransmitter in the mammalian brain. GLU receptors are classified as ionotropic (iGLUR) or metabotropic (mGLUR). The GLU interference with neural development, synaptic plasticity, learning and memory, epilepsy, neural ischemia, drug addiction, tolerance, neuropathic pain, anxiety and depression, has limited the use of compounds acting on GLU synapses, when there is a need for a selective effect for these drugs. Pre-clinical data in rodents and humans subjects has shown that compounds that reduce GLU activation either by blocking its receptors or by reducing its release from terminals elicit an anxiolytic profile of action in models of anxiety. When applied to specific brain areas involved in the mediation of defensive behavior, such as the periaqueductal gray matter, these compounds also replicate the same anxiolytic-like profile. The increasing knowledge about GLU neurotransmission and the development of more selective GLU-acting compounds have renewed attention towards this neurotransmismiting system as a possible target for new classes of drugs for the treatment of neuropsychiatric conditions. Although not complete this review tried to draw attention to collaborative studies between clinicians and basic researchers that have provided insight for potential targets in the development of new anxiolytic compounds thus contributing for the understanding of the biological basis of anxiety.
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PMID:[Glutamatergic neurotransmission as molecular target in anxiety]. 1497 88

The majority of adenosine triphosphate (ATP)-induced nociceptive transduction and pain has been attributed to ionotropic P2X3 receptors. Metabotropic P2Y receptors, some of which bind pyrimidines as well as purines, have received little attention. Here we have examined the ability of P2Y receptor signaling to evoke action potential firing in functionally identified afferent fibers using the skin nerve preparation from adult mouse. The P2Y2/P2Y4 ligand UTP activated sustained action potential firing in 54% of C fibers in a concentration-dependent manner. The effect was specific for P2Y2/P2Y4 receptors, as the P2Y6 ligand UDP never activated C fibers. In comparison to C fibers, few thinly myelinated A-mechanoreceptors (AM) (12%) were activated by UTP. The majority (70-80%) of the UTP-sensitive C and Adelta fibers responded to the algogen capsaicin with a barrage of action potentials, whereas the UTP-insensitive fibers were largely unresponsive to capsaicin. Furthermore, 86% of the UTP-sensitive C fibers and 100% of the UTP-sensitive AM fibers also responded to the P2X agonist alpha,beta-methylene ATP, indicating that P2Y and P2X receptors are widely co-expressed. Surprisingly, a significant proportion (20-40%) of low threshold slowly and rapidly adapting Abeta fibers were also activated by UTP and alpha,beta-methylene ATP. These data indicate that P2Y receptors on the terminals of capsaicin-sensitive cutaneous sensory neurons effectively evoke nociceptive transmission, and support the hypothesis that UTP may be an endogenous nociceptive messenger. Furthermore, P2Y signaling may contribute to mechanotransduction in low threshold Abeta fibers under normal or pathological conditions.
Pain 2004 May
PMID:The P2Y agonist UTP activates cutaneous afferent fibers. 1508 24

The major local symptom of Phoneutria nigriventer envenomation is an intense pain, which can be controlled by infiltration with local anesthetics or by systemic treatment with opioid analgesics. Previous work showed that intraplantar (i.pl) injection of Phoneutria nigriventer venom in rats induces hyperalgesia, mediated peripherally by tachykinin and glutamate receptors. The present study examined the spinal mechanisms involved in pain-enhancing effect of this venom. Intraplantar injection of venom into rat hind paw induced hyperalgesia. This phenomenon was inhibited by intrathecal (i.t.) injection of tachykinin NK1 (GR 82334) or NK2 (GR 94800) receptor antagonists, a calcitonin gene-related peptide (CGRP) receptor antagonist (CGRP8-37) and N-methyl-D-aspartate (NMDA; MK 801 and AP-5), non-NMDA ionotropic (CNQX), or metabotropic (AIDA and MPEP) glutamate receptor antagonists, suggesting the involvement of spinal neurokinins and excitatory amino acids. The role of proinflammatory cytokines, nitric oxide (NO), and prostanoids in spinally mediated pain facilitation was also investigated. Pharmacological blockade of tumour necrosis factor-alpha (TNFalpha) or interleukin-1beta (IL-1beta) reduced the hyperalgesic response to venom. Intrathecal injection of L-N6-(1-iminoethyl)lysine (L-NIL), but not of 7-nitroindazole (7-NI), inhibited hyperalgesia induced by the venom, indicating that NO, generated by the activity of the inducible form of nitric oxide synthase, also mediates this phenomenon. Furthermore, indomethacin, an inhibitor of cyclooxigenases (COX), or celecoxib, a selective inhibitor of COX-2, abolished venom-induced hyperalgesia, suggesting the involvement of spinal prostanoids in this effect. These data indicate that the spinal mechanisms of pain facilitation induced by Phoneutria nigriventer venom involves a plethora of mediators that may cooperate in the genesis of venom-induced central sensitization.
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PMID:Involvement of spinal neurokinins, excitatory amino acids, proinflammatory cytokines, nitric oxide and prostanoids in pain facilitation induced by Phoneutria nigriventer spider venom. 1532 37

Molecular mechanisms underlying C-fiber stimulation-induced ERK (extracellular signal-regulated kinase) activation in dorsal horn neurons and its contribution to central sensitization have been investigated. In adult rat spinal slice preparations, activation of C-fiber primary afferents by a brief exposure of capsaicin produces an eightfold to 10-fold increase in ERK phosphorylation (pERK) in superficial dorsal horn neurons. The pERK induction is reduced by blockade of NMDA, AMPA/kainate, group I metabotropic glutamate receptor, neurokinin-1, and tyrosine receptor kinase receptors. The ERK activation produced by capsaicin is totally suppressed by inhibition of either protein kinase A (PKA) or PKC. PKA or PKC activators either alone or more effectively together induce pERK in superficial dorsal horn neurons. Inhibition of calcium calmodulin-dependent kinase (CaMK) has no effect, but pERK is reduced by inhibition of the tyrosine kinase Src. The induction of cAMP response element binding protein phosphorylation (pCREB) in spinal cord slices in response to C-fiber stimulation is suppressed by preventing ERK activation with the MAP kinase kinase inhibitor 2-(2-diamino-3-methoxyphenyl-4H-1-benzopyran-4-one (PD98059) and by PKA, PKC, and CaMK inhibitors. Similar signaling contributes to pERK induction after electrical stimulation of dorsal root C-fibers. Intraplantar injection of capsaicin in an intact animal increases expression of pCREB, c-Fos, and prodynorphin in the superficial dorsal horn, changes that are prevented by intrathecal injection of PD98059. Intrathecal PD98059 also attenuates capsaicin-induced secondary mechanical allodynia, a pain behavior reflecting hypersensitivity of dorsal horn neurons (central sensitization). We postulate that activation of ionotropic and metabotropic receptors by C-fiber nociceptor afferents activates ERK via both PKA and PKC, and that this contributes to central sensitization through post-translational and CREB-mediated transcriptional regulation in dorsal horn neurons.
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PMID:Ionotropic and metabotropic receptors, protein kinase A, protein kinase C, and Src contribute to C-fiber-induced ERK activation and cAMP response element-binding protein phosphorylation in dorsal horn neurons, leading to central sensitization. 1538 14

Pain following nerve damage is an expression of pathological operation of the nervous system, one hallmark of which is tactile allodynia. We have been studying the role of ATP receptors in pain, and have already reported that activation of the P2X2/3 heteromeric channel/receptor in primary sensory neurons causes acutely tactile allodynia. We report here that tactile allodynia under chronic pain states requires an activation of the P2X4 ionotropic ATP receptor and p38 mitogen-activated protein kinase (MAPK) in spinal cord microglia. Two weeks after L5 spinal nerve injury, rats displayed a marked mechanical allodynia. In the rats, activated microglia were detected in the injury side of the dorsal horn where the level of the dually phosphorylated active form of p38MAPK (phospho-p38MAPK) was increased. We performed the double-immunostaining analysis using cell-type specific markers and found that phospho-p38MAPK-positive cells were microglia. Moreover, intraspinal administration of p38MAPK inhibitor, SB203580, suppressed the allodynia. We also found that the expression level of P2X4 was increased strikingly in spinal cord microgila after nerve injury and that pharmacological blockade of P2X4 reversed the allodynia. Intraspinal administration of P2X4 antisense oligodeoxynucleotide (ODN) reduced induction of P2X4 and suppressed tactile allodynia. Taken together our results demonstrate that activation of P2X4 or p38 MAPK in spinal cord microglia is necessary for tactile allodynia following nerve injury.
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PMID:Chronic pain and microglia: the role of ATP. 1546 44

Glutamate is the major neurotransmitter in the mammalian central nervous system and plays a pivotal role in both acute and chronic pain. The actions of glutamate are mediated by two receptor families: ionotropic glutamate receptors (iGluRs), and metabotropic glutamate receptors (mGluRs). Activation of glutamate receptor can elicit both hyperalgesic and analgesic effects. Eight mGluRs subtypes (mGluR1-mGluR8) have been identified and classified into three groups. Among these, group I mGluRs (mGlu1 and -5) have been implicated in the processes of central sensitization and persistent nociception, whereas activation of group II mGluRs (mGlu2/3) is effective against neuropathic or inflammatory pain. In this review we focus on the role of mGlu2/3 in the modulation of persistent pain, and on their potential use as drug targets in pain management.
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PMID:Metabotropic receptors as targets for drugs of potential use in the treatment of neuropathic pain. 1548 19


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