Neuroreport
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Lugaro cells are fusiform neurons located just beneath the Purkinje cell layer. Their axon projects profusely in the molecular layer and emits some collaterals in the granular layer. ⋯ The axonal varicosities of this cell form multiple symmetrical synaptic junctions with basket and stellate cell somata and proximal dendrites, and, perhaps, with the molecular layer dendrites of Golgi interneurons. Lugaro cells thus seem to exert a feed-back inhibitory control on Purkinje cells.
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Neurotoxins can help the understanding of mechanisms involved in neurotransmission. We here report that two neurotoxin isoforms, Tx3-3 and Tx3-4 obtained from the venom of the spider Phoneutria nigriventer inhibited the 45Ca2+ influx in rat cortical synaptosomes induced by the scorpion venom tityustoxin. The IC50 for Tx3-3 and Tx3-4 were 0.32 and 7.9 nM, respectively. The neurotoxins Tx3-3 and Tx3-4 are very effective in inhibiting 45Ca2+ influx and they should be useful in studies involving Ca(2+)-dependent processes.
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To investigate the role of Group I mGluRs in allodynia and hyperalgesia, we examined the behavioural responses of rats to noxious and non-noxious mechanical and thermal stimuli following intrathecal (i.t.) treatment (25 nmol) with the selective mGluR1/5 agonist, (RS)-dihydroxyphenylglycine ((RS)-DHPG). (RS)-DHPG administration produced a persistent decrease in response latency on a 48 degrees C hotplate, a reduction in the 50% response threshold to von Frey hairs, and an increase in responses to a tail pinch. These data suggest that activation of spinal mGluR1/5 receptors plays a role in the development of persistent allodynia and hyperalgesia associated with tissue or nerve injury.
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It has been suggested that hyperexcitability in dorsal root ganglion (DRG) neurons due to altered sodium channel expression contributes to some chronic pain syndromes. To understand the role of the voltage-gated sodium channel alpha-SNS in inflammatory pain, we investigated the expression of alpha-SNS mRNA and tetrodotoxin-resistant (TTX-R) sodium current in small DRG neurons, which include nociceptive cells, following injection of carrageenan into the hind paw of the rat using in situ hybridization and patch-clamp recording. alpha-SNS mRNA expression in DRG neurons projecting to the inflamed limb was significantly increased 4 days following carrageenan injection, compared with DRG neurons from the contralateral side or naive (uninjected) rats (mean +/- s.d. optical density ratio: ipsilateral/contralateral, 1.77 +/- 0.17; ipsilateral/naive, 1.88 +/- 0.36). ⋯ The TTX-R current density was also significantly increased. These results demonstrate the increased expression of alpha-SNS sodium channels in small DRG neurons following injection of carrageenan into their projection field, and suggest that alpha-SNS is involved in the development of hyperexcitability associated with inflammation.
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To examine the specific roles of group I metabotropic glutamate receptors (mGluRs) in nociceptive processing, we examined the effects of intrathecal (i.t.) treatment with antibodies raised against the C-terminals of mGluR1 and mGluR5 in various rat pain models. The effects of anti-mGluR1 IgG and anti-mGluR5 IgG were assessed in a model of persistent pain induced by intrathecal administration of the mGluR1/5 agonist DHPG, as well as in models of heat pain (plantar test), chemical pain (formalin test) and neuropathic pain. DHPG-induced spontaneous nociceptive behaviours (SNB) were significantly attenuated by i.t. treatment with either anti-mGluR1 IgG (30 microg) or anti-mGluR5 IgG (10 and 30 microg). ⋯ Moreover, neither antibody (30 microg) significantly reduced formalin pain scores as compared to control IgG. However, i.t. treatment with anti-mGluR1 IgG (30 microg) or anti-mGluR5 IgG (30 microg) significantly reduced cold hypersensitivity exhibited 8 days after constriction injury of the sciatic nerve, supporting the contention that group I mGluRs play a role in the development of neuropathic pain. Because these antibodies were effective against neuropathic pain, and not acute heat or chemical noxious stimuli, these results suggest that mGluRs are involved in nociceptive processing in chronic pain states rather than signaling acute noxious stimuli, and that DHPG-induced pain may be mediated by similar mechanisms as neuropathic pain.