European journal of pharmacology
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The P2X7 receptor is not only involved in cell proliferation, but also acts as an adenosine 5'-triphosphate (ATP)-gated non-selective channel, and its expression is increased in human melanoma. An irreversible antagonist of P2X7, such as oxidized ATP (oxATP), might block P2X7 receptor-mediated ATP release and proliferative signaling. Therefore, we carried out basic studies to test this idea and to examine the feasibility of using oxATP to treat B16 melanoma. ⋯ Next, the effect of P2X7 antagonist oxATP on B16 melanoma cell growth was examined in vitro and in vivo. oxATP significantly decreased B16 melanoma cell proliferation in vitro, and also significantly inhibited tumor growth in B16 melanoma-bearing mice. These data indicate that extracellularly released ATP may serve as an intercellular signaling molecule. We propose that the P2X7 receptor is a promising target for treatment of solid tumors.
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AZD3043 (previously named THRX-918661) is a novel short-acting intravenous anesthetic agent in clinical trials. Although AZD3043 is a positive modulator at the γ-aminobutyric acid (GABA)(A)-receptor, its potency and efficacy have not been characterized in detail. Nor is it known whether the point-mutations in the β-subunit of the GABA(A)-receptor that dramatically reduce the anesthetic effect of propofol (i.e. β2 (N289M) and β3 (N290M)), also influence the effect of AZD3043. ⋯ AZD3043 increased the GABA response also in GABA(A) receptors lacking the γ2-subunit, i.e. α1β2. In conclusion, AZD3043 is a positive modulator and a direct agonist at human GABA(A) receptors and is not dependent on the γ2-subunit for its effect. Similar to propofol, the effect of AZD3043 is dramatically reduced by point-mutations in the β2(N289M) and β3(N290M) subunits, indicating similar molecular mechanisms of action for propofol and AZD3043 at the human GABA(A) receptor.
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The purpose of the study is to find subcutaneous equianalgesic doses of memantine, amantadine and bupivacaine and use these doses to quantify the cardiovascular and central nervous system toxicity of these agents after intravenous administration. Memantine, amantadine and bupivacaine, a local anesthetic, in a dose-related fashion were determined for cutaneous analgesia by a block of the cutaneous trunci muscle reflex in rats, and equipotent doses were calculated. Following rapid intravenous infusion of equianalgesic bupivacaine, memantine, amantadine and saline (vehicle) in rats, we observed the onset time of seizure, apnea and impending death, and monitored mean arterial blood pressure and heart rate. ⋯ At equianalgesic doses, the infusion time of memantine or amantadine required to induce seizure, impending death, and apnea was longer than that of bupivacaine during rapid intravenous infusion (P<0.01). The decreasing slope in mean arterial blood pressure and heart rate was slower with memantine and amantadine when compared with bupivacaine at equivalent doses (P<0.01). Our data showed that memantine and amantadine (i) were equal to bupivacaine at producing durations of cutaneous analgesia but (ii) were less likely than bupivacaine to cause cardiovascular and central nervous system toxicity.
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Effects of fluoxetine on plasticity and apoptosis evoked by chronic stress in rat prefrontal cortex.
The prefrontal cortex is the brain region sensitive to detrimental effects of stress and even mild stress can rapidly impair its function. Aside from initiating proadaptive neuroplastic changes in the prefrontal cortex, chronic stress may also increase vulnerability of cortical neurons to apoptosis. Understanding the mechanism of plasticity and apoptotic processes is of immense importance for therapy of stress-related psychiatric disorders. ⋯ In addition, mitochondrial Bax protein was elevated by chronic social isolation, while fluoxetine failed to abolish this effect. In spite of elevated Bcl-2 in the mitochondria, the calculated Bax/Bcl-2 ratio and concomitant absence of NFκB activation pointed to initiation of apoptotic signaling in the prefrontal cortex. The results imply that fluoxetine influences plasticity in the prefrontal cortex of chronically isolated rats and fails to prevent stress-induced initiation of apoptosis in this brain structure.
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Triple reuptake inhibitors (TRIs) are potential new antidepressants, which not only enhance brain serotonin and norepinephrine concentrations but also increase dopamine levels. Therefore TRIs are believed to have faster therapeutic onset than SSRIs, and may be particularly useful for the treatment of anhedonia (i.e. inability to experience pleasure), one of the core symptoms of major depression. The current study aimed at getting better insight into the rewarding properties of DOV 216,303, which is a TRI, regarding its possible use to treat anhedonia. ⋯ DOV 216,303 decreased ICSS thresholds up to 6h after drug treatment. To our knowledge this is the first time that a triple reuptake inhibitor, DOV 216,303, induces relatively long-lasting enhancement of brain reward activity. Elevated ICSS thresholds were found after amphetamine administration, which is consistent with previously reported reward deficits induced after amphetamine-withdrawal.