Neuroscience letters
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Neuroscience letters · Dec 2006
Inhibition of neuronal nitric oxide synthase antagonizes morphine antinociceptive tolerance by decreasing activation of p38 MAPK in the spinal microglia.
We have demonstrated that the activation of p38 mitogen-activated protein kinase (MAPK) in the spinal microglia played an essential role in the development of morphine antinociceptive tolerance. The aim of this study was to investigate whether inhibition of neuronal nitric oxide synthase (nNOS) attenuated tolerance to morphine analgesia by modulating p38 activation in the spinal microglia. ⋯ Such p38 MAPK activation in microglia is consistent with a potential role in the development of morphine antinociceptive tolerance. We demonstrated for the first time that the inhibition of nNOS attenuated morphine antinociceptive tolerance by reducing p38 MAPK activation in the spinal microglia.
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Neuroscience letters · Dec 2006
Participation of peripheral group I and II metabotropic glutamate receptors in the development or maintenance of IL-1beta-induced mechanical allodynia in the orofacial area of conscious rats.
The present study investigated the role of peripheral groups I and II metabotropic glutamate receptors (mGluRs) in interleukin (IL)-1beta-induced mechanical allodynia in the orofacial area of rats. Subcutaneous injection of 10 pg of IL-1beta decreased air-puff thresholds ipsilateral or contralateral to the injection site. The decrease in air-puff thresholds appeared 10 min after the injection of IL-1beta and IL-1beta-induced mechanical allodynia persisted for over 3 h. ⋯ The anti-allodynic effects of APDC were abolished by pre-treatment with (2S)-2-amino-2[(1S,2S)-2-carboxycycloprop-1-yl]-3-(xanth-9-yl) propanoic acid (LY341495), a group II mGluR antagonist. These results indicate that peripheral group II mGluRs are involved in the development and maintenance of IL-1beta-induced mechanical allodynia, while peripheral group I mGluRs are involved in the development of IL-1beta-induced mechanical allodynia. Based on our observations, the peripheral application of group II mGluR agonists may be of therapeutic value in treating inflammatory pain.
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Neuroscience letters · Dec 2006
Neuroprotective interaction produced by xenon and dexmedetomidine on in vitro and in vivo neuronal injury models.
Xenon, an NMDA receptor antagonist and dexmedetomidine (Dex), an alpha(2)-adrenoceptor agonist, both exhibit neuroprotective effects. We investigated the nature of their interaction. In vitro: a primary co-culture of neuronal and glial cells derived from neonatal mice was exposed to oxygen and glucose deprivation (OGD) and the resulting neuronal injury was assessed by the release of lactate dehydrogenase (LDH). ⋯ In vivo, a combination of xenon and Dex, at doses that are individually not neuroprotective, produced significant neuroprotective effect as measured by reduction in area of infarction. The long-term neurological function data corroborated these morphological data. Our study demonstrates that the combination of xenon and Dex offers neuroprotection additively in vitro and synergistically in vivo.
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Neuroscience letters · Nov 2006
Postischemic exercise decreases neurogenesis in the adult rat dentate gyrus.
Running exercise enhances neurogenesis in the normal adult and aged hippocampus. However, the effect of exercise on neurogenesis in the ischemic hippocampus is unclear. Here, we show that running exercise has different effects on ischemic and non-ischemic brain. ⋯ The numbers of BrdU-labeled cells were increased in response to ischemia, however, they were decreased 14 days after BrdU administration and running exercise accelerated the reduction in BrdU-labeled cells in ischemic rats. These findings suggest that running exercise has a negative effect on neurogenesis in the ischemic hippocampus. This may be important with respect to assessment of therapeutic approaches for functional recovery after stroke.
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Neuroscience letters · Nov 2006
Comparative StudyEffects of high dose of simvastatin on levels of dopamine and its reuptake in prefrontal cortex and striatum among SD rats.
Statins are increasingly being used for the treatment of a variety of conditions beyond their original indication for cholesterol lowering. We previously reported that simvastatin increased dopamine receptors in the rat prefrontal cortex [Q. Wang, W. ⋯ Dopamine (DA) reuptake was unchanged in both brain regions. These results suggest that chronic treatment with high dose of simvastatin may affect DA tissue level in prefrontal cortex and striatum without changing on DA reuptake. This may have important clinical implications in psychiatric and striatal dopaminergic disorders.