European journal of pharmacology
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Clinically, anesthetic drugs show hysteresis in the plasma drug concentrations at induction versus emergence from anesthesia induced unconsciousness. This is assumed to be the result of pharmacokinetic lag between the plasma and brain effect-site and vice versa. However, recent mathematical and experimental studies demonstrate that anesthetic hysteresis might be due in part to lag in the brain physiology, independent of drug transport delay - so-called "neural inertia". ⋯ Manipulation of tissue excitability, using either carbachol (50 μM) or elevated potassium (5mM vs 2.5mM) did not significantly alter the size of etomidate hysteresis loops. Hysteresis in the magnesium concentration-effect relationship was evident, but only when the starting condition was magnesium-containing "normal" aCSF. The in vitro cortical slice manifests pathway-dependent "neural inertia" and may be a valuable model for future investigations into the mechanisms of neural inertia in the cerebral cortex.
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It has been described that coadministration of opioids with low doses of other analgesics can reduce adverse effects and increase antinociception, but combinations of two μ-opioid receptor agonists have been poorly explored. The objective of this work was threefold: 1) to evaluate the antinociceptive combination of i.c.v. morphine and fentanyl at different doses; 2) to compare the antinociception produced by acute or repeated administration of an effective morphine dose (1 μg) alone, or combined with a low fentanyl dose (1 ng); and 3) to correlate these effects with μ-opioid receptor internalization in periaqueductal gray matter and locus coeruleus. Antinociception was evaluated by the tail-flick test and receptor internalization was analyzed by confocal microscopy in Wistar rats. ⋯ The combination of 1 ng fentanyl with 1 μg morphine increases the magnitude and duration of antinociception not only after a single injection, but also after five administrations when tolerance develops to morphine alone. Increased and long-lasting antinociception correlates positively with increased β-arrestin 2 activity and μ-opioid receptor internalization in periaqueductal gray matter and locus coeruleus. These results suggest that combined administration of morphine and fentanyl increases long-lasting antinociception and β-arrestin 2 signaling contributes to the combination effects.
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Neuropathic pain is caused by a lesion or disease of the somatosensory nervous system and treatment of neuropathic pain remains a challenge. The purpose of the present study was to examine the effect of ethosuximide, an anti-epileptic and relatively selective T-type calcium blocker and morphine, a prototypical opioid in the behavioral responses following the chronic constriction injury (CCI) model of neuropathic pain. Experiments were performed on eight groups (n=8) of male Sprague-Dawley rats (230-280 g). ⋯ Ethosuximide and morphine significantly decreased cold and mechano allodynia and thermal hyperalgesia. However, the co-administration of both drugs seems to be more effective than the ethosuximide or morphine alone on cold and mechano allodynia and thermal hyperalgesia. Our results suggest that ethosuximide block tactile and thermal hypersensitivity after the CCI model, also, ethosuximide potentiates the analgesic effects of morphine in neuropathic pain conditions and behavioral responses.
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Type 2 diabetes is a risk factor for Alzheimer's disease. Insulin receptor desensitisation has been found in Alzheimer brains, which may be the underlying link. Glucose-dependent insulinotropic polypeptide (GIP), an incretin hormone, normalises insulin signalling in diabetes. ⋯ In LTP recording in area CA1, both (Pro3)GIP as well as D-Ala2GIP enhanced LTP formation. In addition, the proliferation of neuronal progenitor cells in the dentate gyrus was increased both by D-Ala2GIP and (Pro3)GIP. The results show that the antagonist (Pro3)GIP has agonistic effects in chronic use, and both (Pro3)GIP and the agonist D-Ala2GIP are safe to use in wt mice and induces no major behavioural side effects nor impairments in learning whilst enhancing LTP and neuronal progenitor cell proliferation, which may be useful in treating neurodegenerative diseases.
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The present study examined effects of caffeine on antinociception by acetaminophen in the formalin test in mice. It demonstrates that caffeine 10mg/kg inhibits antinociception produced by acetaminophen 300 mg/kg i.p. against phase 2 flinches. Chronic administration of caffeine in the drinking water (0.1, 0.3g/l) for 8 days also inhibits the action of acetaminophen. ⋯ Caffeine reversal of acetaminophen results from actions in the spinal cord, as intrathecal DPCPX 10 nmol inhibited antinociception by systemic acetaminophen; this was also observed in +/+ but not in -/- adenosine A(1) receptor mice. We propose that spinal adenosine A(1) receptors contribute to the action of acetaminophen secondarily to involvement of descending serotonin pathways and release of adenosine within the spinal cord. Inhibition of acetaminophen antinociception by doses of caffeine relevant to dietary human intake levels suggests a more detailed consideration of acetaminophen-caffeine interactions in humans is warranted.