Neuropharmacology
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Gabapentin and pregabalin (S-(+)-3-isobutylgaba) produced concentration-dependent inhibitions of the K(+)-induced [Ca(2+)](i) increase in fura-2-loaded human neocortical synaptosomes (IC(50)=17 microM for both compounds; respective maximal inhibitions of 37 and 35%). The weaker enantiomer of pregabalin, R-(-)-3-isobutylgaba, was inactive. These findings were consistent with the potency of these drugs to inhibit [(3)H]-gabapentin binding to human neocortical membranes. ⋯ The alpha 2 delta-1, alpha 2 delta-2, and alpha 2 delta-3 subunits of voltage-gated Ca(2+) channels, presumed sites of gabapentin and pregabalin action, were detected with immunoblots of human neocortical synaptosomes. The K(+)-evoked release of [(3)H]-noradrenaline from human neocortical slices was inhibited by gabapentin (maximal inhibition of 31%); this effect was prevented by the AMPA receptor antagonist NBQX (2,3-dioxo-6-nitro-1,2,3,4-tetrahydro[f]quinoxaline-7-sulphonamide). Gabapentin and pregabalin may bind to the Ca(2+) channel alpha 2 delta subunit to selectively attenuate depolarization-induced Ca(2+) influx of presynaptic P/Q-type Ca(2+) channels; this results in decreased glutamate/aspartate release from excitatory amino acid nerve terminals leading to a reduced activation of AMPA heteroreceptors on noradrenergic nerve terminals.
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The finding that serotonin (5-HT) can modulate dopamine (DA) and norepinephrine (NE) release in the brain has led us to hypothesize that fluoxetine, a selective 5-HT reuptake inhibitor, may influence the ability of bupropion, a preferential DA and NE dual reuptake inhibitor, to modulate extracellular DA and NE concentrations in some brain areas. The present study was designed to evaluate this hypothesis by assessing the effects of fluoxetine on bupropion-induced changes in extracellular monoamine concentrations by means of in vivo microdialysis. Three mesocorticolimbic areas including hypothalamus (Ht), prefrontal cortex (Pfc) and nucleus accumbens (Acb) were selected based on their relevance to depression and antidepressant actions. ⋯ Bupropion did not significantly affect the extracellular 5-HT concentrations in all the 3 brain areas tested. In summary, the present study demonstrated that bupropion can increase extracellular DA and NE concentrations in several mesocorticolimbic areas, which may have an impact on bupropion's antidepressant actions. Furthermore, fluoxetine can potentiate the bupropion-induced DA and NE increases, which may produce more effective and rapid antidepressant actions.
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The effects of the peripherally restricted opioid agonist loperamide were compared to those of morphine in the formalin test in rats. Both loperamide and morphine were efficacious in producing antihyperalgesia after both subcutaneous and intracisternal administration. The antihyperalgesic effects of peripherally administered loperamide and morphine were antagonized by both naloxone and its quaternary derivative naloxone methiodide. ⋯ However, neither the kappa-receptor selective antagonist nor-binaltorphimine nor the delta-receptor selective antagonist naltrindole blocked the effects of either opioid agonist. The present results are consistent with the interpretation that the antihyperalgesic effects of opioid agonists can have both a peripheral and a central component of action, and that the peripheral component of action is sufficient to produce antihyperalgesia in the formalin test after peripheral administration. The present results provide further evidence that peripherally restricted opioid agonists might provide clinically useful treatment of some pain states, in particular pain states that might involve sensitization of peripheral nociceptors.