Neuroreport
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Situational stressors and anxiety impede performance on creativity tests requiring cognitive flexibility. Preliminary research revealed better performance on a task requiring cognitive flexibility, the anagram task, after propranolol (beta-adrenergic antagonist) than after ephedrine (beta-adrenergic agonist). However, propranolol and ephedrine have both peripheral and central beta-adrenergic effects. ⋯ Solution latency scores for each subject were compared across the drug conditions. Anagram solution latency scores after propranolol were significantly lower than after nadolol. This suggests a centrally mediated modulatory influence of the noradrenergic system on cognitive flexibility.
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Our aim was to determine whether G protein-gated potassium (Kir3) channels contribute to thermonociception and morphine analgesia. Western blotting was used to probe for the presence of Kir3.1, Kir3.2, Kir3.3, and Kir3.4 subunits in the mouse brain and spinal cord. Hot-plate paw-lick latencies for wild-type, Kir3.2 knockout, Kir3.3 knockout, and Kir3.4 knockout mice were measured at 52 degrees C and 55 degrees C, following the s.c. injection of either saline or 10 mg/kg morphine. ⋯ We conclude that G protein-gated potassium channels containing Kir3.2 and/or Kir3.3 play a significant role in responses to moderate thermal stimuli. Furthermore, the activation of Kir3 channels containing the Kir3.2 subunit contributes to the analgesia evoked by a moderate dose of morphine. As such, receptor-independent Kir3 channel agonists may represent a novel and selective class of analgesic agent.
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Co-localization of opioid and melanocortin receptor expression, especially at the spinal cord level in the dorsal horn and in the gray matter surrounding the central canal led to the suggestion that melanocortins might play a role in nociceptive processes. In the present studies, we aimed to determine the effects of melanocortins, administered intrathecally, on allodynia, and to ascertain whether there is an interaction between opioid and melanocortin systems at the spinal cord level. Neuropathic pain was induced by chronic constriction injury (CCI) of the right sciatic nerve in rats. ⋯ Moreover, we demonstrated that the selective blockade of mu-opioid receptor by cyprodime (CP) enhanced antiallodynic effect of SHU9119 as well as pronociceptive action of MTII, whereas the combined administration of mu receptor agonist (DAMGO) and SHU9119 significantly reduced the analgesic effect of those ligands. DAMGO also reversed the proallodynic effect of melanocortin receptor agonist, MTII. In conclusion, it seems that the endogenous opioidergic system acts as a functional antagonist of melanocortinergic system, and mu-opioid receptor activity appears to be involved in the modulation of melanocortin system function.
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Transcranial magnetic stimulation (TMS) is a noninvasive technique for direct stimulation of the neocortex. In the last two decades it is successfully applied in the study of motor and sensory physiology. TMS uses the indirect induction of electrical fields in the brain generated by intense changes of magnetic fields applied to the scalp. ⋯ However, reversed current flow direction resulted in an increased efficacy of biphasic and decreased efficacy of monophasic stimulation. Our results are in agreement with previous findings showing that primary visual functions, such as contrast detection, can be transiently altered by low frequency transcranial magnetic stimulation. However the effect of modulation significantly depends on the current waveform and direction.