Neurochemical research
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Neurochemical research · Jun 2014
GABAA-R α4 subunits are required for the low dose locomotor stimulatory effect of alphaxalone, but not for several other behavioral responses to alphaxalone, etomidate or propofol.
γ-Aminobutyric acid type A receptors (GABAA-Rs) are considered to be the primary molecular targets of injectable anesthetics such as propofol, etomidate and the neurosteriod, alphaxalone. A number of studies have sought to understand the specific GABAA-R subtypes involved in the mechanism of action of these three drugs. Here, we investigated the role of α4-subunit containing GABAA-Rs in the neurobehavioral responses to these drugs. ⋯ The locomotor stimulatory effect of alphaxalone was reduced significantly in α4 KO mice compared to WT controls. Neither the low dose sedating effect of etomidate, nor the moderate/high dose effect of any of the drugs differed between genotypes. These results suggest that α4 subunit-containing GABAA-Rs are required for the low dose, locomotor stimulatory effect of alphaxalone but are not required for the sedating effect of etomidate or the moderate/high dose effects of etomidate, propofol or alphaxalone on motor ataxia and loss of righting reflex.
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Neurochemical research · May 2014
Large conductance calcium-activated potassium channels: their expression and modulation of glutamate release from nerve terminals isolated from rat trigeminal caudal nucleus and cerebral cortex.
Large conductance, calcium-activated potassium channels [big potassium (BK) channel] consist of a tetramer of pore-forming α-subunit and distinct accessory β-subunits (β1-4) that modify the channel's properties. In this study, we analyzed the effects of BK channel activators and blockers on glutamate and γ-aminobutyric acid (GABA) release from synaptosomes isolated from the cerebral cortices or trigeminal caudal nuclei (TCN) of rats. Real-time polymerase chain reaction was used to characterize BK channel α and β(1-4) subunit expression in the cortex and in the trigeminal ganglia (TG), whose neurons project primary terminal afferents into the TCN. ⋯ On the basis of these findings, it is reasonable to hypothesize that BK channels expressed on glutamatergic terminals in the TCN and cortex have distinct pharmacological profiles, which probably reflect different α and β subunit combinations. Channels in the cortex seem to be composed mainly of α subunits and to a lesser degree by α and β4 subunits, whereas in the TG the α + β4 combination seems to prevail (although α and/or α + β2 channels cannot be excluded). In light of the BK channels' selective control of excitatory transmission and their pharmacological diversity, their effects on primary glutamatergic afferents projecting to TCN represent a potential target for drug therapy of migraines and other types of orofacial pain.
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Neurochemical research · May 2014
Social isolation stress-induced fear memory deficit is mediated by down-regulated neuro-signaling system and Egr-1 expression in the brain.
We previously reported that social isolation (SI) rearing of rodents not only elicits a variety of behavioral abnormalities including attention deficit hyperactivity disorder-like behaviors, but also impairs fear memory in mice. This study aimed to clarify a putative mechanism underlying SI-induced conditioned fear memory deficit. Mice were group-housed (GH) or socially isolated for 2 weeks or more before the experiments. ⋯ Neurochemical studies conducted after behavioral tests revealed that SI mice had a significantly down-regulated level of Egr-1 but not Egr-2 in the hippocampal and cortical cytosolic fractions compared with those levels in the GH control animals. Moreover, in the SI group, phosphorylated levels of synaptic plasticity-related signaling proteins in the hippocampus, NR1 subunit of N-methyl-D-aspartate receptor, glutamate receptor 1, and calmodulin-dependent kinase II but not cyclic AMP-responsive element binding protein were significantly down-regulated compared with those levels in GH animals, whereas non-phosphorylated levels of these proteins were not affected by SI. These findings suggest that dysfunctions of Egr-1 and neuro-signaling systems are involved in SI-induced deficits of fear memory consolidation in mice.
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Neurochemical research · Apr 2014
N-acetylcysteine and selenium modulate oxidative stress, antioxidant vitamin and cytokine values in traumatic brain injury-induced rats.
It has been suggested that oxidative stress plays an important role in the pathophysiology of traumatic brain injury (TBI). N-acetylcysteine (NAC) and selenium (Se) display neuroprotective activities mediated at least in part by their antioxidant and anti-inflammatory properties although there is no report on oxidative stress, antioxidant vitamin, interleukin-1 beta (IL)-1β and IL-4 levels in brain and blood of TBI-induced rats. We investigated effects of NAC and Se administration on physical injury-induced brain toxicity in rats. ⋯ The lipid peroxidation and IL-1β values were decreased by NAC and Se treatments. Plasma IL-4, brain cortex GSH, TAS, vitamin C and vitamin E values were increased by NAC and Se treatments although the brain cortex vitamin A and erythrocyte GSH-Px values were increased through NAC only. In conclusion, NAC and Se caused protective effects on the TBI-induced oxidative brain injury and interleukin production by inhibiting free radical production, regulation of cytokine-dependent processes and supporting antioxidant redox system.