LACK OF ABNORMALITY IN BRAIN AROMATIC AMINES IN RATS AND MICE SUSCEPTIBLE TO AUDIOGENIC SEIZURE*

The levels of certain amines (catecholamines, 5-HT, and ‘histamine’) and of certain enzymes (tyrosine hydroxylase, tryptophan hydroxylase, ChAc, or AChE) in whole brain or selected brain areas of rats and mice susceptible to audiogenic seizure have been compared with the levels in matched groups of non-sensitive animals. Sensitive groups included both those where susceptibility is inborn and those where it is induced by administration of methionine sulphoximine or thiosemicarbazide. No significant difference was found which could be correlated with susceptibility to audiogenic seizure.     

Recovery of Susceptibility after Audiogenic Seizure

THE experiments described here were designed to investigate the mechanisms governing recovery of susceptibility to audiogenic seizure in mice. The data indicate that this recovery following an initial seizure is limited by some process affecting the peripheral auditory pathway, rather than central or peripheral motor pathways. Two strains of mice were studied, DBA/2J and SJL/J, the latter being rendered susceptible by previous exposure to noise¹.     

Cerebral, cerebellar, and brain stem gangliosides in mice susceptible to audiogenic seizures

Abstract— The quantitative and qualitative distribution of gangliosides was investigated in the cerebrum, cerebellum and brain stem of audiogenic seizure resistant (C57BL/6J) and susceptible (DBA/2J) mice at 21 days of age. The concentration of gangliosides (μg/unit weight) was higher in the DBA cerebrum and brain stem, but lower in the DBA cerebellum compared to the concentration in C57 mice. In general, the brain water content was lower in DBA mice than in C57 mice. The distributions of a number of gangliosides were found to be different between the two strains and the differences were often in the same direction across the three brain regions. The most consistant and significant difference in ganglioside pattern observed between the strains was the higher concentration of G_M1 in all three regions of the DBA brain. These results suggest that DBA mice have a more heavily myelinated CNS than C57 mice. The relationship of these observations to inherent audiogenic seizure susceptibility is discussed.     

Genetic and phenotypic analysis of seizure susceptibility in PL/J mice

Epilepsy is one of the most common but genetically complex neurological disorders in humans. Identifying animal models that recapitulate human epilepsies is important for pharmacological studies of anticonvulsants, dissection of molecular and biochemical pathogenesis of epilepsy, and discovery of epilepsy susceptibility genes. We discovered that the PL/J inbred mouse strain is susceptible to handling- and rhythmic tossing–induced seizure. The tonic–clonic and generalized seizures observed after induction were accompanied by abnormal EEGs, similar to seizures observed in EL and SWXL-4 mice. PL/J mice also had an extremely low threshold to electroconvulsive seizures compared to other strains and showed variable sensitivity to pentylenetetrazole-induced seizures. Gross neurostructural abnormalities were not found in PL/J mice. Crosses with the seizure-resistant C57BL/6 J strain revealed semidominant inheritance of the rhythmic tossing seizure trait with low penetrance. F2 progeny indicated that the genetic inheritance of seizure susceptibility in PL/J is non-Mendelian. We crossed DBA/2 J mice, which are resistant to rhythmic tossing seizure but susceptible to audiogenic seizures, to PL/J. We found that seizure penetrance in (DBA/2 J × PL/J)F1 mice was similar to the penetrance in (C57BL/6 J × PL/J)F1 mice but the severity and frequency of seizure were higher in (DBA/2 J × PL/J)F1 mice. The PL/J strain serves as an interesting new model for studying the genetics, neurobiology, and pharmacology of epilepsy.     

The effect of audiogenic seizures on regional CNS energy reserves, glycolysis and citric acid cycle flux

Selected energy reserves, glycolytic intermediates and citric acid cycle intermediates were measured in the cerebral cortex, thalamus, brain stem, cerebellum and spinal cord of susceptible mice during audiogenic seizures. Changes in energy reserves (ATP, phosphocreatine and glucose) differed strikingly in extent and temporal pattern from region to region. The audiogenic seizure produced a transient, large decrease in thalamic energy reserves during the early, pretonic phase of the seizure. Less extensive decreases were observed in brain stem and spinal cord; but in these latter regions the changes persisted throughout the pretonic and tonic phases of the seizures. In cerebellum there was a biphasic decrease in energy reserves; a small decrease was observed immediately after the sound stimulus and a second much greater decrease was observed during the tonic phase of the seizure. No change in energy reserves was observed in cerebral cortex. Changes in glycolytic intermediates (glucose 6-phosphate, fructose diphosphate, pyruvate and lactate) also varied from region to region in response to the decreases in energy reserves. In contrast, changes in the two citric acid cycle intermediates, α-oxoglutarate and malate, were essentially the same in all regions studied. α-Oxoglutarate decreased during the tonic phase of the seizure and rose during recovery. Malate remained at control levels throughout the seizure and then slowly increased. These findings are interpreted as indicating regional variations in nueronal activity during audiogenic seizures. During the period when clinical seizure activity is apparent neuronal activity increases in the subcortical regions. This is reflected by an increase in energy utilization and an increase in glycolytic flux in these areas. However, a concomitant increase in citric acid cycle flux does not seem to occur during this period. Citric acid cycle flux does appear to increase after the seizure is over.     

Glutamate receptor GluR1 expression is altered selectively by chronic audiogenic seizures in the Frings mouse brain

The audiogenic seizure-susceptible mouse, Frings, is genetically susceptible to sound-induced seizures and provides a reliable model of reflex epilepsy that lasts throughout the life span of the animal. We used immunohistochemistry to examine if the expression of the non-N-methyl-D -aspartate glutamate receptor (GluR) subunits GluR1, GluR2, or GluR3 were altered subsequent to multiple seizures. Following a regimen of one seizure per day for 3 weeks, GluR1 immunoreactivity, but not GluR2 or GluR3, was substantially elevated in the outer shell of the nucleus accumbens in 21 of 31 chronically seized Frings mice. No other brain regions such as the hippocampus exhibited any qualitative changes in expression of these subunits. In 9 of the 21 Frings mice exhibiting increased GluR1, but in none of the controls, bilateral structural lesions were observed in the lateral hypothalamus. These results support a model where highly localized changes in the expression of GluR1 occur in response to repeated audiogenic seizure. © 1998 John Wiley & Sons, Inc. J Neurobiol 35: 209–216, 1998     

Anticonvulsive properties of peptide ACTH4-7 pro-gly-pro detected in amygdaloid kindling and audiogenic epilepsy in rats

Effects of the ACTH4-7 pro-gly-pro, calcium valproate ("Germed", DDR) and nembutal on kindling preparation and audiogenic epilepsy were investigated. Development of after-discharges in response to repeated amygdaloid electrical stimulation was assessed in normal rats and in rats susceptible to audiogenic epilepsy (KM line of rats). ACTH4-7 pro-gly-pro had an anticonvulsant profile. ACTH4-7 pro-gly-pro decreased seizure threshold in the audiogenic epilepsy test, but did not prevent the motor convulsions.     

The effect of acetyldexphenmetrazine and dexphenmetrazine on the susceptibility to audiogenic seizures in mice.

The antiepileptic effect of dexphenmetrazine (DP) and acetyldexphenmetrazine (ADP) was tested on audiogenic seizures in a 100% susceptible strain of mice. DP had no antiepileptic effect, however, it markedly suppressed the postparoxysmal motor inhibition. ADP had a distinct anticonvulsive effect--it suppressed the convulsive component of the seizure, leaving its running component unaffected. The results are compared with the effect of both drugs on electrographic epileptic phenomena in the turtle brain (Servít and Strejcková 1976).     

Audiogenic seizures in DBA/2 mice discriminate sensitively between low efficacy benzodiazepine receptor agonists and inverse agonists

In experiments with audiogenic seizures in DBA/2 mice, we observed that several socalled benzodiazepine receptor antagonists exhibited either anticonvulsive (Ro 15-1788, PrCC) or proconvulsive (FG 7142, beta-CCE, CGS 8216) effects at high receptor occupancy (17-85%), as compared to benzodiazepines and DMCM which had anticonvulsive and proconvulsive actions, respectively, at very low receptor occupancy (less than 10%). Sensitive distinction between benzodiazepine receptor ligands with low anticonvulsive efficacy (partial agonists) and ligands with low proconvulsive, and maybe anxiogenic, efficacy (partial inverse agonists) can thus be obtained in sound seizure susceptible mice.     

听原性惊厥易感大鼠下丘GluR2的表达及QR位点编辑水平

听原性惊厥易感大鼠是强直 -阵挛惊厥大发作的一种模型 .一般认为 ,下丘是听原性惊厥发作神经元网络的启动部位 .采用RT PCR、Western印迹、免疫组织化学等方法观察了听原性惊厥易感大鼠 (P77PMC)一次惊厥发作与惊厥点燃状态下AMPA受体亚基GluR2在下丘内表达的改变 ,并采用限制性酶切方法分析了GluR2Q R位点mRNA编辑水平的改变 .研究结果显示 ,一次惊厥发作后下丘内GluR2表达无明显改变 ,惊厥点燃后下丘内GluR2表达降低 ,一次惊厥发作及惊厥点燃状态下GluR2Q R位点处于编辑成熟状态 .提示 ,GluR2表达降低参与了点燃状态下的惊厥发作 ,在听原性惊厥易感大鼠惊厥发作机制中不涉及下丘内GluR2Q R位点编辑水平改变 .     

Characteristics of lateralization in rats prone to audiogenic epilepsy

Differences in asymmetry of audiogenic seizure susceptible rats (ASS) as compared with resistant rats (ASR) were analysed in the present study. It was found that ASS rats were more lateralized in behavioral tests (the choice of one side of T-maze and the preference of one paw in obtaining food from the tube) and after systemically injected apomorphin. It was also established that there were more sexual differences of asymmetry in the ASS group than in the ASR one.     

Anticonvulsant effects of some inhibitory neurotransmitter amino acids

The anticonvulsive effects of GABA, taurine, and glycine were investigated on several chemically-induced and genetic seizure models. Intravenous injections of either GABA, taurine, or glycine provided protection against 3-mercaptopropionic acid (MPA)-induced convulsions in adult Swiss mice. GABA was partially effective against isonicotinic acid hydrazide and was without effect against bicuculline-induced convulsions bProlonged administration of glycine prevented MPA-induced convulsions but not electrically induced seizures or seizures induced by strychnine or metrazol.Intragastric glycine protected young audiogenic seizure-susceptible DBA/2 mice against all three phases of sound-induced convulsions (wild running, clonic and tonic seizure), but GABA and taurine provided little or no protection. With increase of glycine, the cerebral levels of glutamine and serine also increased, but that of glutamic acid decreased. The endogenous glutamic and glycine levels were slightly higher in the brains of the audiogenic seizure-susceptible DBA/2 mice than in that of the resistant BALB/Cy strain.     

Cerebral Glutamic Acid Decarboxylase Activity and γ-Aminobutyric Acid Concentrations in Mice Susceptible or Resistant to Audiogenic Seizures

Abstract: DBA/2 mice between 21 and 28 days of age are highly susceptible to sound-induced seizures. Drug studies suggest a possible deficit of γ-Aminobutyric acid (GABA)-mediated neurotransmission may be involved. We have measured the whole brain GABA concentration and glutamic acid decar-boxylase activity in DBA/2 mice at various ages before, during, and after the period of maximal susceptibility to audiogenic seizures. Corresponding determinations were carried out on age-matched TO mice, a strain much less susceptible to audiogenic seizures than DBA/2 mice at all ages. No significant differences in GABA concentration or glutamic acid decarboxylase activity were found between strains at any age. The susceptibility of DBA/2 mice to audiogenic seizures does not result from a gross inability to synthesise or store GABA.     

Genetic Analysis of the Predisposition to Audiogenic Seizure Fits in Krushinsky-Molodkina Rat Strain

The expression of audiogenic seizure fits has been studied in F₁ hybrids between audiogenic seizure-prone Krushinsky-Molodkina rat strain and Wistar rats not prone to audiogenic seizures, as well as in two backcross generations. Only 10% of F₁ hybrids exhibit audiogenic seizure fits, whereas the frequency of this character in two generations of their backcrosses with Krushinsky-Molodkina rats is about 50%. A digenic model with incomplete penetrance has been put forward to explain the control of audiogenic seizure fits. This model fits the data obtained: the theoretically expected distributions of the character in offsprings of different crosses do not differ significantly from those observed in experiments. The model explains why the distribution of the character is the same in the first and second backcross offsprings.     

Ontogeny of susceptibility to the convulsant, Ro 5-4864, and its relationship to audiogenic seizure susceptibility in inbred mice

The postnatal development of susceptibility to the convulsant effects of Ro5-4864 (4'-chlorodiazepam) was characterized in two inbred mouse strains (DBA/2J and BALB/c ByJ) which as adults differ markedly in their response to this convulsant. Onset of susceptibility to a dose of Ro5-4864 which caused a high frequency of clonic seizures in adults was observed at 10 days of age in DBA/2 mice, but not until 35 days in BALB/c By mice. At 14 days of age an abrupt increase in susceptibility to Ro5-4864-induced tonic seizures was found in DBA/2 but not BALB/c By mice. Both the peak of tonic seizure susceptibility (21 days) and the time course of its subsequent age-dependent decline closely paralleled the change in audiogenic seizure susceptibility in the DBA/2 strain. PK11195 (40 mg/kg) blocked Ro5-4864 (25 mg/kg)-induced, age-dependent tonic seizures but had no effect on clonic seizure induction in the same mice. These observations establish that both the susceptibility to Ro5-4864 in adult mice and the postnatal time course for development of susceptibility to this convulsant are inherently different in these two strains of mice. The lack of coincidence between the developmental onset of susceptibility to Ro5-4864-induced seizures and the onset of supersensitivity to Ro5-4864-induced tonic seizures during the period of peak audiogenic seizure susceptibility in DBA/2 mice implies that more than one neurochemical mechanism is involved in the ability of Ro5-4864 to induce seizures in this strain. However, the blockade of Ro5-4864-induced tonic seizures by PK11195 suggests that peripheral type benzodiazepine receptors may mediate this effect.     

Determination of Amino Acids and Monoamine Neurotransmitters in Caudate Nucleus of Seizure-Resistant and Seizure-Prone BALB/c Mice

Abstract: Amino acid and monoamine concentrations were examined in tissue extracts of caudate nucleus of genetic substrains of BALB/c mice susceptible or resistant to audiogenic seizures. Amino acids [aspartate, glutamate, glycine, taurine, serine, γ-aminobutyric acid (GABA)], monoamines, and related metabolites were separated by isocratic reverse-phase chromatography and detected by a coulometric electrode array system. In situ activity of tyrosine hydroxylase and tryptophan hydroxylase were determined by measuring the accumulation of L-DOPA and 5-hydroxytryptophan after administration of the decarboxylase inhibitor NSD-1015. Highly significant decreases in concentrations of both excitatory (glutamate and aspartate) and inhibitory amino acids (GABA and taurine) were observed in extracts of caudate nucleus of seizure-prone mice. Substantial decreases in concentrations of dopamine (DA) and its metabolites, 3,4-dihydroxyphenylacetic acid and homovanillic acid, were also noted. Decreased accumulation of L-DOPA after NSD-1015 administration provided evidence for decreased tyrosine hydroxylase activity and decreased DA synthesis in striatum of seizure-prone mice compared with seizure-resistant mice. Decreased concentrations of the DA metabolite 3-methoxytyramine (after NSD-1015 administration) suggested that DA release was also compromised in seizure-prone mice. No significant difference in 5-hydroxytryptophan accumulation in striatum of seizure-prone and seizure-resistant mice suggested that tryptophan hydroxylase activity and serotonin synthesis were not affected. The data suggest that seizure-prone BALB/c mice have a deficiency in intracellular content of both excitatory and inhibitory amino acids. The data also raise the issue of whether GABAergic interactions with the nigrostriatal DA system are important in the regulation of audiogenic seizure susceptibility.     

Effect of Ro 4-1284 on audiogenic seizure susceptibility and intensity in epilepsy-prone rats

The effects of CNS monoamine depletion on audiogenic seizure (AGS) susceptibility and intensity were studied in two types of Sprague-Dawley derived rats: (1) the progeny of a nonsusceptible strain (controls); and (2) the nonsusceptible progeny of epilepsy-prone (audiogenic seizure susceptible) parents (NSPSP). Forty-five minutes after injection of the benzoquinolizine Ro 4-1284, a significant fraction of the NSPSP developed AGS susceptibility, whereas the incidence in controls was not significant. AGS intensity was also significantly elevated 45 minutes and 19 days following Ro 4-1284 in NSPSP. In controls, there was a smaller, but significant, elevation of seizure intensity only at the earlier time period. Both types of rats exhibited a marked depletion of norepinephrine (NE) and 5-hydroxytryptamine (5-HT) in all of the six different areas of the CNS which were examined. In the NSPSP, a significant incidence of seizure susceptibility was retained as long as 19 days after Ro 4-1284 administration, despite the complete repletion of monoamine stores. These observations suggest that CNS monoaminergic neurons function as determinants of AGS susceptibility and intensity in animals which also carry some other genetically determined susceptibility factor(s). A deficiency in monoaminergic transmission is insufficient to cause susceptibility in animals not carrying the other trait(s). Also, although a monoaminergic deficit may initially cause the appearance of susceptibility, the presence of the deficit may not be necessary for the continuation of susceptibility once an animal has actually sustained an AGS in the presence of the monoaminergic deficit.     

γ-Aminobutyric Acid and Benzodiazepine Binding Sites in Audiogenic Seizure-Susceptible Mice

Abstract: The properties of γ-aminobutyric acid recognition sites, benzodiazepine binding sites and the effect of exogeneous γ-aminobutyric acid on benzodiazepine binding were determined in crude membrane fractions prepared from the brains of DBN/2 mice at ages before (8-9 and 17-18 days), during (22-23 and 28-29 days) and after (40-43 days) the age of high susceptibility to audiogenic seizures. These have been compared with data from age- matched mice of a strain (TO) with lower audiogenic seizure susceptibility. The number of high-affinity [³H]γ-aminobutyric acid binding sites was lower at all ages in DBN/2 mice compared with TO mice, but the affinity was higher in DBN/2 mice. The number of low-affinity [³H]y-aminobutyric acid binding sites was lower at 8-9 days and 40-43 days in DBN/2 mice, but was not significantly different from TO mice at other ages. For [³H]flunitrazepam binding, the only difference found was a slight reduction in the number of binding sites at 28-29 days of age in DBN/2 mice. γ-Aminobutyric acid stimulation of [³H]-flunitrazepam binding was not significantly different up to 22-23 days of age, but was higher in DBN/2 mice at 28-29 days and lower at 40-43 days. Impairment of γ-aminobutyric acid function is a possible permissive factor in the age-dependent audiogenic seizure susceptibility in DBN/2 mice.     

Genetic analysis of the predisposition to audiogenic seizure fits in Krushinsky-Molodkina rat strain

The expression of audiogenic seizure fits has been studied in F1 hybrids between audiogenic seizure-prone Krushinsky-Molodkina rat strain and Wistar rats not prone to audiogenic seizures, as well as in two backcross generations. Only 10% of F1 hybrids exhibit audiogenic seizure fits, whereas the frequency of this character in two generations of their backcrosses with Krushinsky-Molodkina rats is about 50%. A digenic model with incomplete penetrance has been put forward to explain the control of audiogenic seizure fits. This model fits the data obtained: the theoretically expected distributions of the character in offsprings of different crosses do not differ significantly from those observed in experiments. The model explains why the distribution of the character is the same in the first and second backcross offsprings.