Brain research
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Tolerance to the stimulatory effects of cocaine on the hypothalamic-pituitary-adrenal (HPA) axis develops after chronic 'binge' cocaine exposure in the rat. This blunting of HPA axis activity in response to cocaine is associated with a cocaine-induced reduction of corticotropin-releasing hormone (CRH) mRNA level in the hypothalamus. There is limited information about the effects of withdrawal from chronic cocaine on HPA activity. ⋯ CRH mRNA levels in the hypothalamus were not different from saline controls on the 1st and 4th days of withdrawal. Taken together, the present results show that after development of adaptation or tolerance to chronic 'binge' cocaine there is an increase in HPA activity during acute cocaine withdrawal. In addition to being associated with CRH input from the hypothalamus, the activation of the HPA axis by cocaine withdrawal may be, at least in part, due to the increased POMC and/or CRH-R1 gene expression observed in the anterior pituitary after chronic 'binge' cocaine.
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In order to investigate whether cholera toxin B subunit (CTb) is transported by unmyelinated primary afferents following nerve injury, we transected the sciatic nerves of six rats, and injected the transected nerves (and in three cases also the intact contralateral nerves) with CTb, 2 weeks later. The relationship between CTb and two neuropeptides, vasoactive intestinal peptide (VIP) and neuropeptide Y (NPY), was then examined in neurons in the ipsilateral L4 and L5 dorsal root ganglia, using immunofluorescence staining and confocal microscopy. We also immunostained sections of spinal cord and caudal medulla for CTb, NPY and VIP. ⋯ The main finding of the present study was that almost all of the VIP- (96%) and NPY- (98%) positive neurons in the dorsal root ganglia on the lesioned side were also CTb-labelled. After nerve injury VIP is upregulated in fine afferents that terminate in laminae I and II, and most of these probably have unmyelinated axons. Since the cell bodies of these neurons were labelled with CTb that had been injected into the transected sciatic nerve, this suggests that many of these fine afferents, which do not normally transport CTb, are capable of doing so after injury.
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Naloxone and naloxone methiodide both act on opioid receptors but naloxone methiodide has limited access to the brain. Naloxone methiodide has been shown to have a lower affinity for opioid receptors than naloxone in the rat and guinea pig but has not been tested in the mouse. ⋯ Significant binding was observed for each receptor type and the binding affinity for naloxone versus naloxone methiodide was found to be 15:1 for mu, 6:1 for kappa and 330:1 for delta receptors. Therefore, naloxone methiodide does have a lower affinity for opioid receptors than naloxone in mouse brain tissue, which must be taken into consideration in experimental designs.
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Reactive oxygen species-induced reperfusion injury of the brain is an important cause of neonatal morbidity and mortality following perinatal hypoxia-ischemia. Deferoxamine, allopurinol and oxypurinol have previously been shown to be neuroprotective in vivo during or directly after hypoxia-ischemia. To further characterize and more precisely elucidate whether the neuroprotective properties of these agents are mediated via neuronal and glial cells, or whether endothelial cells contribute to this effect, we tested their ability to protect CA1 neurons in organotypic hippocampal slices. ⋯ As expected, 89% and 98% protection was demonstrated with dizocilpine present during or during/after oxygen/glucose deprivation resp. alpha-Phenyl-N-tert-butyl nitrone administered during/after oxygen/glucose deprivation provided 44% protection. However, iron chelation with deferoxamine and inhibition of xanthine oxidase by allopurinol or oxypurinol did not confer neuroprotection. The neuroprotective effect of deferoxamine, allopurinol or oxypurinol, as seen in vivo, may be obtained via inhibition of the production of damaging factors by blood born substances or endothelial cells.
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The aim of the present study was to examine the effect of intrathecal (i.t.) injection of pertussis toxin (PTX) on the nociceptive threshold and protein kinase C (PKC) expression in the rat spinal cord. The role of N-methyl-D-aspartic acid (NMDA) receptors in these changes was also examined. Male Wistar rats were implanted with two i.t. catheters, one of which was connected to a mini-osmotic pump and used to infuse saline or D-2-amino-5-phosphonopentanoic acid (D-AP5) (2 microg/h) starting on day 3 after i.t. catheter insertion. ⋯ Infusion of the NMDA antagonist, D-AP5, prevented both the thermal hyperalgesia and the increase in PKCgamma isoform expression in PTX-treated rats, and had no effect on these values in nai;ve rats. Intrathecal injection of the PKC inhibitor, chelerythrine (10 microg), significantly inhibited the thermal hyperalgesia observed in PTX-treated rats. These results show that i.t. injection of PTX induced thermal hyperalgesia accompanied by a selective increase in PKCgamma expression in both the synaptosomal membrane and cytosolic fractions of the dorsal horn of the rat lumbar spinal cord, and both effects were inhibited by the NMDA receptor antagonist, D-AP5.