European journal of pharmacology
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Tramadol, an analgesic used alone or combined with acetaminophen, has a complex mechanism of action involving opioid and amine mechanisms. In this study, we explored the involvement of spinal and peripheral adenosine A1 receptors in antinociception by tramadol, and determined whether spinal serotonin 5-HT₇ receptors were linked to spinal A1 receptor actions. Antinociception was examined using the 2% formalin test in mice. ⋯ Intraplantar tramadol produced antinociception against flinching behaviors, and this action was reversed by intraplantar DPCPX 4.5 μg administered on the ipsilateral, but not contralateral, side. Intraplantar DPCPX also reversed antinociception by systemic tramadol. These results indicate that adenosine A₁ receptors contribute to antinociception by tramadol in the mouse formalin model, and that spinal and peripheral sites are involved in these actions. 5HT₇ receptors in the spinal cord do not appear to be involved in the recruitment of A₁ receptor mechanisms when tramadol is given systemically in this model.
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There are several studies carried out to test the effect of cholestasis on memory impairment and anxiolytic-like behaviors. Some previous studies have shown that cholestasis alters the activity of opioidergic and dopaminergic systems. The aim of the present study is however to investigate the role of mu opioid, D₁ and D₂ dopamine ventral hippocampal (CA₃) receptors upon cholestasis-induced anxiolytic-like behaviors in hole-board task. ⋯ Unlike the higher dose of SCH23390 (0.5 µg/mouse) which induced anxiogenic-like behaviors, other doses of the above drugs did not alter the exploratory behaviors in examined mice. Based on our findings, co-administration of the subthreshold dose of naloxone (0.125 µg/mouse), SCH23390 or sulpiride, and SCH23390 with sulpiride, neither altered exploratory behaviors in animals nor reversed the cholestasis-induced anxiolytic-like behaviors, seven days post BDL. Current results demonstrated firstly, the anxiolytic-like behaviors are evident in cholestatic mice seven days post BDL; secondly, there are plausible mechanisms governing the involvement of the CA₃ opioidergic and dopaminergic systems in this phenomenon and thirdly, there seem to be no interaction between these systems.
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Although carbetapentane produces skin (peripheral) infiltrative analgesia, the underlying mechanism of carbetapentane in local anesthesia is not well understood. The purpose of the study was to examine the effect of carbetapentane on voltage-gated Na(+) channels and its efficacy on spinal (central) anesthesia. We evaluated the effects of carbetapentane on rat motor and pain behavior (when administered intrathecally) and on voltage-gated sodium channels in differentiated neuronal NG108-15 cells. ⋯ Carbetapentane showed a much stronger frequency-dependence of block than lidocaine: with high frequency stimulation (3.33 Hz), 50 µM lidocaine produced an additional 30% blockade, while the same concentration of carbetapentane produced 70% more block. These results revealed carbetapentane had a more potent and prolonged spinal blockade with a more sensory/nociceptive-selective action over motor blockade in comparison with lidocaine. Spinal anesthesia with carbetapentane could be through inhibition of voltage-gated Na(+) currents.
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This study examined the effect of vilazodone, a combined serotonin (5-HT) reuptake inhibitor and 5-HT(1A) receptor partial agonist, paroxetine and fluoxetine on the sensitivity of 5-HT(1A) autoreceptors of serotonergic dorsal raphe nucleus neurons in rats. These effects were assessed by determining the intravenous dose of (±)-8-hydroxy-2-(di-n-propylamino)-tetralin (8-OH-DPAT) required to suppress the basal firing rate of these neurons by 50% (ID₅₀) in anesthetized rats using in vivo electrophysiology. 5-HT uptake inhibition was determined by the ability of the compounds to reverse (±)-p-chloroamphetamine (PCA)-induced rat hypothalamic 5-HT depletion ex vivo. Acute vilazodone administration (0.63 and 2.1 µmol/kg, s.c.), compared with vehicle, significantly increased (2-3-fold) the ID₅₀ of 8-OH-DPAT at 4 h, but not 24h after administration. ⋯ Vilazodone antagonized the action of PCA 3.5 h and 5 h after a single dose (ID₅₀ 1.49 and 0.46 µmol/kg, s.c., respectively), but was inactive 18 h post-administration, corroborating the electrophysiological results at 24 h following acute administration. The results are consistent with the concept of rapid and, following repeated treatment, prolonged inhibition of 5-HT(1A) autoreceptors by vilazodone. This effect could occur by either direct interaction with, or desensitization of, these receptors, an effect which cannot be ascribed to vilazodone's 5-HT reuptake inhibiting properties.
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The systemic administration of lipopolysaccharide (LPS) induces time-dependent behavioral alterations, which are related to sickness behavior and depression. The time-course effects of LPS on prepulse inhibition (PPI) remain unknown. Furthermore, the time-dependent effects of LPS on central nitrite content had not been investigated. ⋯ Twenty-four hours post-LPS treatment, depressive-like behaviors and working memory deficits persisted, while PPI levels significantly reduced along with increases in IL-1β content in the PFC and a decrease in nitrite levels in the HC, ST and PFC. Our data demonstrate that a delayed increase (i.e., 24h post-LPS) in PPI levels ensue, which may be useful behavioral parameter for LPS-induced depression. A decrease in nitrergic neurotransmission was associated with these behavioral findings.