Abstract  1. We have previously shown that toluene dose-dependently inhibits recombinant N-methyl-D-aspartate (NMDA) receptors at micromolar concentrations. This inhibition was rapid, almost complete and reversible. The NR1/2B combination was the most sensitive receptor subtype tested with an IC(50) value for toluene of 0.17 mM. 2. We now report on the effects of other commonly abused solvents (benzene, m-xylene, ethylbenzene, propylbenzene, 1,1,1-trichlorethane (TCE) and those of a convulsive solvent, 2,2,2-trifluoroethyl ether (flurothyl), on NMDA-induced currents measured in XENOPUS oocytes expressing NR1/2A or NR1/2B receptor subtypes. 3. All of the alkylbenzenes and TCE produced a reversible inhibition of NMDA-induced currents that was dose- and subunit-dependent. The NR1/2B receptor subtype was several times more sensitive to these compounds than the NR1/2A subtype. 4. The convulsant solvent flurothyl had no effect on NMDA responses in oocytes but potently inhibited ion flux through recombinant GABA receptors expressed in oocytes. 5. Overall, these results suggest that abused solvents display pharmacological selectivity and that NR1/2B NMDA receptors may be an important target for the actions of these compounds on the brain.

Abstract  This paper reviews the findings and conclusions of the literature pertinent to the Long-Sleep and Short-Sleep selectively-bred lines of mice and challenges the widely-held notion that the selective breeding program was successful in separating alleles for specific sensitivities to just alcohol. Rather, it is argued that these lines of mice were selected for differing activity of a more general process. Recent evidence, as well as reevaluated previous evidence, indicates that Long-Sleep mice are more sensitive to the soporific effects of three major classes of CNS depressants (alcohols, barbiturates, and benzodiazepines), as well as many other anesthesia-inducing compounds (adenosine, chloral hydrate, trichloroethanol, paraldehyde, nitrous oxide, enflurane, and isoflurane). Further, much evidence also supports the conclusion that most of these hypnotic-depressants and anesthetics could exert their soporific influence by a potentiation of GABA activity. The other characteristic of interest in this regard is susceptibility to convulsions. Short-Sleep mice have significantly lower thresholds to both flurothyl-induced and bicuculline-induced convulsions, as well as being more likely to suffer from paroxysms during ethanol withdrawal.

Abstract  The seizure susceptibility of carbonic anhydrase II (CA) deficient mice and their normal littermates was determined and compared. In flurothyl-induced seizures, CA deficient mice displayed longer latencies to the onset of both clonic and tonic-clonic seizures. In pentylenetetrazole-induced seizures mutant mice exhibited a lower incidence of clonic seizures than did their normal littermates. Acetazolamide (a CA blocker) was used for the pretreatment of normal mice to compare them to CA deficient littermates. The pretreated mice displayed a lower incidence of flurothyl-induced tonic-clonic seizures and of both types of pentylenetetrazole seizures. The attempts to elicit audiogenic seizure did not reveal any difference between normal and mutant littermates. However, when the mice were primed by a loud sound during the critical period and retested for audiogenic seizures again at age 1.5 months, the CA deficient mice displayed a significantly lower incidence of seizures. The similarity between the anticonvulsant action of CA deficiency and the anticonvulsant action of acetazolamide suggests an important role of CA in seizures. The exact mechanism of anticonvulsant action by CA inhibition, however, remains to be elucidated.

Abstract  A procedure is described for training mice to discriminate 30mg/kg pentylenetetrazol (PTZ) from saline when lever pressing was maintained under a fixed-ratio 20 schedule of milk presentation. To define the pharmacological profile of the PTZ stimulus in mice, generalization testing was conducted with oxazepam and Ro 15-4513 (sarmazenil). Consistent with data obtained by others in rats, oxazepam (1mg/kg) blocked the PTZ stimulus whereas Ro 15-4513 substituted for PTZ, but only at a dose (2mg/kg) that also decreased rates of responding. The effects of both a depressant and excitatory vapor in this model were also determined. The volatile anesthetic methoxyflurane (1000-2000 ppm) blocked the discriminative stimulus effects of PTZ in a concentration-dependent manner, while the convulsant vapor flurothyl (900 ppm) produced greater than 90% PTZ-lever responding without disrupting rates of responding. The PTZ-like discriminative stimulus effects of flurothyl were dose-dependently blocked by oxazepam (0.03-1.0mg/kg). As has been shown in numerous previous studies in rats, PTZ could be established as a discriminative stimulus in mice. PTZ discrimination could be blocked by a benzodiazepine agonist and shares some properties with a benzodiazepine inverse agonist. Substitution and antagonism studies can also be performed with vapors, illustrating the utility of this model for comparing their behavioral effects to those of more widely studied drugs.

Abstract  Sustained experimental seizures in rats have previously been shown to cause an extensive necrosis in pars reticulata of substantia nigra (SNPR) and globus pallidus (GP). In the present paper we have studied the effects of hexafluorodiethyl ether-induced seizures on the immunoreactivity seen with antibodies directed against glial fibrillary acidic protein, GFA, used to visualize astrocytes, antibodies to the glycoprotein laminin as a marker for blood vessel walls and neurofilament (NF) antibodies to monitor neuronal disturbances. Already 12 h after a 20-min seizure period a reduction in GFA immunofluorescence intensity was observed in SNPR. After 3 days, marked lesions were noted in SNPR and GP as seen with cresyl violet staining. The lesions contained almost no GFA-positive structures. In the proximity of the lesions, an increase in GFA-immunoreactivity was noted. Such an increase, although less pronounced, was also seen in the major projection areas of SNPR. Two months post-seizure, the gliotic reaction had disappeared, and only a thin and elongated gliotic scar was observed. In spite of the development of a profound central necrosis especially evident in SNPR, both laminin- and NF-immunoreactivity was slightly increased within the lesioned areas. NF-immunoreactivity was also increased in the superior colliculus and in the reticular formation. Two months post-experiment NF-immunofluorescence was normalized but the former lesion sites showed signs of hypervascularization. We conclude that hexafluorodiethyl ether-induced 20-min seizures lead to rapid, localized glial and neuronal changes in the rat brain as evidenced by GFA and NF immunohistochemistry, while the vascular network remains intact.

Abstract  The substantia nigra pars reticulata (SNPR) has previously been shown to undergo tissue necrosis following status epilepticus induced by flurothyl in the rat. Even if the rat is ventilated, the SNPR develops necrosis if the epileptic period lasts more than 30 min. Rat brains were frozen in situ after 20 and 60 min of seizure activity and after 60 min of seizure activity followed by 60 min recovery. Labile energy metabolites were then analyzed in the SNPR and in the periaqueductal grey matter (PAG, control region). In the PAG, the metabolite changes during status epilepticus were similar to those reported for cerebral cortex and hippocampus. Measurements showed an unchanged ATP content and energy charge (97% and 98% of control, respectively) and an accumulation of lactate to 9.2 +/- 0.6 mumol/g in the 60-min group. In the PAG, all metabolites measured had returned to control values after 60 min of recovery. In the SNPR, the perturbation of the energy metabolites was much more pronounced during status epilepticus. The concentration of ATP decreased to 75 +/- 3%, the energy charge to 91% +/- 12% and the adenylate pool to 86.7 +/- 5.7% of control. Lactate accumulated to concentrations of 16.1 +/- 1.8 mumol/g and 24.9 +/- 2.3 mumol/g in the 20-min and 60-min groups, respectively. The concentration of lactate was still increased above control after 60 min recovery, whereas the concentration of ATP and the energy charge were lower than control. The findings demonstrate that sustained and intense neuronal activation can cause metabolic disturbance and thereby lead to necrosis.(ABSTRACT TRUNCATED AT 250 WORDS)

Abstract  Subcutaneous or i.c.v. administration of U50,488, a highly selective kappa opioid agonist, resulted in a dose-and time-dependent anticonvulsant action in rats. The anticonvulsant effect was seizure-specific; thus, U50,488 protected against supramaximal electroshock seizures but failed to raise the threshold of flurothyl-induced convulsions. The ED50 for s.c. U50,488 was 8.6 mg/kg, with a duration of action longer than 8 hr. In contrast, the ED50 for i.c.v. U50,488 was 103.8 micrograms, lasting approximately 1 hr. The anticonvulsant effect of U50,488 was partially antagonized by high (10.0 mg/kg), but not low (1.0 mg/kg), doses of s.c. administered naloxone. Results indicate that U50,488 is an efficacious, long-acting anticonvulsant against supramaximal, but not chemical threshold, seizures in rats. Furthermore, the results with naloxone suggest that this effect of U50,488 is mediated by non-mu (probably kappa) binding sites. This structurally novel nonpeptide opioid may offer new insights into the development of therapeutically effective agents in the treatment of grand mal or partial epilepsies.

Abstract  Dynorphin A (1-13) acutely elevated the seizure threshold (ST) to the convulsant flurothyl, and this action was not blocked by naloxone. Increases in ST were also observed following i.c.v. injections of the non-opioid fragment dynorphin A (3-13). Pretreatment with dynorphin A (1-13), but not dynorphin A (3-13), non-competitively blocked the anticonvulsant effect of the mu selective opioid DAGO. Furthermore, pretreatment with dynorphin A (1-13) antagonized the delta antagonist properties of naloxone or ICI 154,129 in this seizure model. Thus, in addition to its non-opioid anticonvulsant effects, dynorphin A (1-13) exhibits unique antagonist actions which appear to be specific for the active opioid fragment.

Abstract  This study investigated whether the convulsant gas flurothyl deviates from the correlation between anesthetic potency and lipid solubility. Flurothyl (CF3CH2OCH2CF3) produced convulsions in 50% of mice at 0.122 +/- 0.006% atm. Mice often convulsed repeatedly after exposure to flurothyl, the maximum number of convulsions occurring when the concentration was 0.24% atm. Concentrations greater than 0.6% atm produced convulsions immediately after addition of flurothyl, but rarely at later times. An ED50 value for loss of the righting reflex was obtained when the concentration was 1.22 +/- 0.19% atm. The oil/gas partition coefficient was found to be 46.9 for flurothyl at 37 C. The product of righting-reflex ED50 and oil/gas partition coefficient (0.0122 atm x 46.9 = 0.57 atm) is similar to that found for conventional anaesthetics in mice. Therefore, flurothyl does not deviate from the correlation of anesthetic potency and lipid solubility. It was also found that 0.3 to 0.8% atm flurothyl increased isoflurane MAC in dogs, but that 3 to 4% atm flurothyl decreased it. The increase of isoflurane requirement at lower concentrations of flurothyl suggests that anesthetics with a potential to cause convulsions may partly antagonize their own anesthetic effect. The decrease in isoflurane MAC in dogs at higher concentrations of flurothyl also implies that this compound has an anesthetic effect. A structural isomer of flurothyl, iso-Indoklon [(CSF3)2CHOCH3], was only anesthetic and did not have convulsant properties. Its MAC in dogs was 4.60 +/- 0.45% atm, and its righting-reflex ED50 in mice was 2.65 +/- 0.13% atm. The product of iso-Indoklon MAC in dogs and its oil/gas partition coefficient (27.0) was 1.24 atm, and the product of iso-Indoklon righting-reflex ED50 in mice and oil/gas partition coefficient was 0.72 atm. These values are close to those found for conventional anesthetic agents in dogs and mice; thus iso-Indoklon also does not deviate from the correlation between anesthetic potency and lipid solubilities.

Abstract  1 The rate of synthesis of gamma-aminobutyric acid (GABA) in the cortex, hippocampus and striatum of rat brain was assessed by measuring the linear rate of accumulation of GABA following injection of amino-oxyacetic acid (AOAA). 2 Five min after a single electrically induced seizure there was a rise in GABA content in these brain regions and an almost total inhibition of the rate of synthesis. 3 Five min after seizure induced by the inhalant convulsant flurothyl there was no rise in GABA content in these brain regions but a similar marked degree of inhibition of GABA synthesis. 4 Two hours after the convulsion the rate of GABA synthesis had returned to control values in all three brain regions. 5 A single convulsion did not alter the glutamic acid decarboxylase activity in these brain regions either in the absence or presence of added co-factor (pyridoxal phosphate). 6 Evidence for an inhibition of GABA release following a convulsion which may be associated with the inhibition of GABA synthesis is presented in the following paper.

Abstract  It has been confirmed that 24 hours following a series of electroconvulsive shocks (ECS) given once daily for 10 days (ECS X 10) to rats there is an increase in GABA concentration in the corpus striatum. A similar change was seen after the ECS had been given to rats anaesthetised with halothane, or when 5 ECS were given spread out over 10 days, the rats being anaesthetised during the ECS. A daily convulsion for 10 days elicited by flurothyl exposure resulted in an increased striatal GABA concentration, but also increased the GABA concentration in the hypothalamus, hippocampus and cortex. The increase in striatal GABA concentration was present 24 hours after ECS daily for 5 days or 3 days after ECS daily for 10 days. No change in [3H]-diazepam binding was seen in hippocampus, cortex or corpus striatum 24 hours after the last of 10 once daily ECS. The increase in striatal GABA concentration was therefore seen at all times when enhanced monoamine-mediated behaviours have been demonstrated following seizures.

Abstract  25 Wistar rats were subjected twice daily to epileptic seizures induced by the convulsant gaz Flurothyl. Compared with littermates of the same sex and birth weight, the brain of seizure-treated rats showed a reduction of 6% (5.2 million cells) after 5 days and 17.6% (33.4 million cells) after 10 days of treatment.