Brain research. Molecular brain research
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Brain Res. Mol. Brain Res. · Apr 1999
Differential role of GDNF and NGF in the maintenance of two TTX-resistant sodium channels in adult DRG neurons.
Following sciatic nerve transection, the electrophysiological properties of small dorsal root ganglion (DRG) neurons are markedly altered, with attenuation of TTX-R sodium currents and the appearance of rapidly repriming TTX-S currents. The reduction in TTX-R currents has been attributed to a down-regulation of sodium channels SNS/PN3 and NaN. While infusion of exogenous NGF to the transected nerve restores SNS/PN3 transcripts to near-normal levels in small DRG neurons, TTX-R sodium currents are only partially rescued. ⋯ The down-regulation of NaN mRNA is, nevertheless, not rescued by NGF-treatment in either IB4+ or IB4- neurons and NGF-treatment in vitro does not significantly increase the peak amplitude of the TTX-R current in small DRG neurons. In contrast, GDNF-treatment causes a twofold increase in the peak amplitude of TTX-R sodium currents and restores both SNS/PN3 and NaN mRNA to near-normal levels in IB4+ neurons. These observations provide a mechanism for the partial restoration of TTX-R sodium currents by NGF in axotomized DRG neurons, and demonstrate that the neurotrophins NGF and GDNF differentially regulate sodium channels SNS/PN3 and NaN.
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Brain Res. Mol. Brain Res. · Apr 1999
Orofacial deep and cutaneous tissue inflammation differentially upregulates preprodynorphin mRNA in the trigeminal and paratrigeminal nuclei of the rat.
Preprodynorphin (PPD) and preproenkephalin (PPE) gene expression in a rat model of orofacial inflammation were examined in order to further characterize the neurochemical mechanisms underlying orofacial inflammation and hyperalgesia. Deep and cutaneous orofacial inflammation was produced by a unilateral injection of complete Freund's adjuvant (CFA) into the rat temporomandibular joint (TMJ) or perioral skin (PO), respectively. RNA blot analysis of the tissues including the spinal trigeminal complex revealed that the PPD mRNA level ipsilateral to TMJ inflammation was increased by 56.5+/-14.7% (n=4) when compared to the Naive group, and was significantly greater than the contralateral PPD mRNA level (p<0.05). ⋯ There were no significant changes in PPE mRNA expression in both TMJ- and PO-inflamed rats. These results indicate that TMJ inflammation resulted in a more intense and widespread increase in PPD mRNA expression when compared to PO inflammation. These changes may contribute to persistent central hyperexcitability and pain associated with temporomandibular disorders.
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Brain Res. Mol. Brain Res. · Feb 1999
Changes in expression of neuronal and glial glutamate transporters in rat hippocampus following kainate-induced seizure activity.
The expression of excitatory amino acid transporters (EAATs) in rat hippocampus was studied following kainic acid-induced seizure activity in vivo and in hippocampal slice cultures. Protein and mRNA levels of the glial (EAAT2) and neuronal (EAAT3) transporters were determined with affinity-purified antibodies and oligonucleotide probes, respectively. Kainate treatment decreased EAAT3 immunoreactivity in stratum lacunosum moleculare within 4 h of seizure onset. ⋯ In hippocampal organotypic cultures, which lack a major excitatory input from the entorhinal cortex, kainate produced a slow decrease in [3H]d-aspartate uptake. This study indicates that an early effect of kainate treatment consists of down-regulation of the neuronal transporter EAAT3 in restricted hippocampal regions, together with a modest increase in the expression of the glial transporter EAAT2. Differential regulation of neuronal and glial glutamate transporters may thus play a role in kainate-induced seizure, neurotoxicity and neuronal plasticity.
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Brain Res. Mol. Brain Res. · Oct 1998
Novel synthesis and release of GABA in cerebellar granule cell cultures after infection with defective herpes simplex virus vectors expressing glutamic acid decarboxylase.
The inhibitory amino acid neurotransmitter gamma-aminobutyric acid (GABA) is synthesized from glutamate in a single step by the enzyme glutamatic acid decarboxylase (GAD). We sought to determine whether viral vectors containing GAD cDNA could be used to enhance synthesis and stimulation-evoked release of GABA in cultures of CNS neurons. For this purpose, we generated double-cassette defective herpes simplex virus (HSV) vectors that expressed one of the two GAD isoforms (GAD65 or GAD67), and Escherichia coli LacZ. ⋯ Treatment of CGCs with kainic acid, which destroys most of the GABAergic neurons (<1% remaining), did not prevent vector-derived expression of GAD nor synthesis of GABA. This suggests that defective HSV vector-derived GAD expression can be used to increase GABA synthesis and release in CNS tissue, even in the relative absence of GABAergic neurons. The use of such GAD vectors in the CNS has potential therapeutic value in neurologic disorders such as epilepsy, chronic pain, Parkinson's and Huntington's disease.
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Brain Res. Mol. Brain Res. · Aug 1998
Taurine chloramine inhibits production of nitric oxide and prostaglandin E2 in activated C6 glioma cells by suppressing inducible nitric oxide synthase and cyclooxygenase-2 expression.
Taurine prevents tissue damage in various models of inflammation through a mechanism postulated to involve taurine monochloramine (Tau-Cl). Tau-Cl is formed through the action of a halide-dependent myeloperoxidase system associated with polymorphonuclear leukocytes (PMN), eosinophils, and basophils. Production of nitric oxide (NO), PGE2, and other proinflammatory mediators by activated macrophages is inhibited by Tau-Cl. ⋯ Expression of iNOS mRNA was markedly inhibited in activated C6 cells that were previously exposed to Tau-Cl and this persisted for at least 24 h. In contrast, inhibition of COX-2 mRNA expression was only transiently reduced in Tau-Cl exposed cells during the first 4 h of activation and was relatively unimpaired thereafter (8-24 h). These results suggest that Tau-Cl inhibits the transcriptional expression of the iNOS gene but inhibits expression of COX-2 protein by post-transcriptional mechanisms.