Brain research
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Comparative Study
Effects of anticonvulsants on spontaneous epileptiform activity which develops in the absence of chemical synaptic transmission in hippocampal slices.
Spontaneous epileptiform activity (SEA) develops in area CA1 of hippocampal slices, when the Ca2+ concentration in the perfusate is lowered to 0.2 mM, at which level evoked chemical synaptic transmission is blocked. We investigated the effects of different anticonvulsants on this autonomous activity, in order to determine whether the antiepileptic effect can be ascribed to an influence on neuronal excitability. ⋯ Valproate was effective at concentrations of 2-5 mM. Midazolam, a water-soluble benzo-diazepine agonist and the N-methyl-D-aspartate antagonists, DL-alpha-aminoadipic acid and 2-amino-7-phosphonoheptanoic acid were ineffective in blocking SEA suggesting that they exert their antiepileptic action by interference with synaptic mechanisms.
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The interactions of a steroid anaesthetic, alphaxalone, with the GABA receptor-ionophore complex were investigated by two different experimental approaches. In the rat cuneate nucleus slice, alphaxalone (0.1-10 microM) potentiated depolarizing responses to superfused GABA and muscimol, but not those to glycine. The potentiating effect of alphaxalone was unaltered by the benzodiazepine antagonist Ro 15-1788. ⋯ Analysis of binding curves for [3H]muscimol indicated that the steroid anaesthetic increases the affinity for [3H]muscimol of low affinity binding sites; this property is shared by pentobarbitone. The physiologically inactive beta-hydroxy isomer of the steroid was without activity in either of the experimental situations at 30 microM. It is suggested that alphaxalone and pentobarbitone share a common mode of action on the GABA system, which may be relevant to the mechanisms by which these drugs produce anaesthesia.
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Data obtained from neonatally treated rats are fairly consistent. However, there is disagreement as to whether mechanical and thermal nociceptive thresholds are elevated or unchanged in this group. There are at least two major areas of disagreement in adult animal capsaicin research. ⋯ Capsaicin-induced SP depletion in neonates is permanent. Systemic administration to adult depleted SP from much the same areas as observed in neonates, but all areas but the medulla exhibited a slow, regional recovery. Intraventricular injection of capsaicin depleted SP in the adult medulla only, while other SP-containing areas affected by systemic injection remained intact.(ABSTRACT TRUNCATED AT 400 WORDS)
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In some medial forebrain bundle (MFB) sites, self-stimulation is often modulated by hunger or satiety. With electrodes in the nucleus accumbens (NAC) such modulation rarely occurs. The influence of food deprivation on MFB self-stimulation is the main basis for the hypothesis that electrical stimulation of the MFB can mimic the rewarding effect of food for hungry animals. ⋯ Rewarding NAC stimulation, however, does not inhibit most LHA neurons that are inhibited by food. This result suggests that LHA neurons which are inhibited by food might be involved in mediation of the rewarding effect of electrical stimulation at some sites in the MFB. Nevertheless, self-stimulation may occur by activating reward processes other than those related to food, because rewarding NAC stimulation does not inhibit LHA neurons which are suppressed by food.
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Activity produced by direct microelectrophoretic application of glutamate onto 19 convergent neurones in trigeminal nucleus caudalis, was strongly depressed during and after the application of heterotopic noxious conditioning stimuli: noxious heat (52 degrees C) applied to the tail, noxious pinches applied to the tail or hindpaws and intraperitoneal injections of bradykinin produced mean reductions in activity of 80-90%. The same noxious conditioning stimuli had no effect on the activities of any of 5 noxious-only or 5-non-noxious-only neurones. ⋯ It is therefore proposed that DNIC act on nucleus caudalis convergent neurones by a final post-synaptic inhibitory mechanism involving hyperpolarization of the neuronal membrane. Consistent with this hypothesis, it was also found that the noxious conditioning stimuli could restore firing of convergent neurones which had been excessively depolarised by large doses of glutamate.