Are WAG/Rij rats with genetic absence epilepsy anxious?

Behavior of susceptible and non-susceptible to audiogenic (convulsive) seizures rats from inbred WAG/Rij strain, genetically predisposed to absence epilepsy, and outbred Wistar strain, genetically not predisposed to absence epilepsy, was compared to assess the level of anxiety (in open field, light-dark choice and elevated plus-maze tests) and the level of depressiveness (in the sucrose consumption and forced swimming tests). Increased level of anxiety was found only in susceptible to audiogenic seizures rats both from WAG/Rij and Wistar strain, but increased level of depressiveness was found only in WAG/Rij strain rats as compared with Wistar rats independently of their susceptibility to audiogenic seizures. Results suggest that increased depressiveness in WAG/Rij strain rats is associated with absence epilepsy but increased anxiety with susceptibility to audiogenic seizures.     

The remote effects of neonatal injections of caffeine and piracetam on audiogenic seizure susceptibility in mice of three genotypes

Neonatal DBA/2J, 101/HY and CBA/Lac/Sto mice (2-7-day-old) were subcutaneously injected with caffeine (200 mg/kg), piracetam (50 mg/kg) or distilled water. At the age of 1 month, they were tested for audiogenic seizure susceptibility (SS). The neonatal injections changed SS in 1-month-old mice in a genotype-dependent manner. Distilled water (control of neonatal pain stimulation) slightly reduced the audiogenic fit severity (arbitrary scores) the effect being most distinct in DBA/2J, less strong in 101/HY strain and absent in CBA. Caffeine neonatal injections induced slight changes in DBA/2J, no changes in CBA and increased SS in 101/HY mice. Piracetam reduced fit intensity in DBA/2J mice but increased it in CBA and, especially, in 101/HY strain. Genotype-dependent differences in physiological mechanisms of audiogenic seizures may be responsible for different remote effects of early treatment.     

Dopamine-dependent character of depressive-like behavior in WAG/Rij rats with genetic absence epilepsy

Placebo-treated WAG/Rij rats (as compared to normal Wistar rats without seizure pathology) exhibited depressive-like behavior similar to that of intact rats of the same strain: decreased exploratory activity in the open field test, increased immobility in the forced swimming test, decreased sucrose consumption and preference (anhedonia). Chronic injection of tricyclic antidepressant imipramine (15 mg/kg. i.p., for 15 days) exerted a therapeutic (antidepressant) effect on depressive-like behavior in WAG/Rij rats. After cessation of antidepressant therapy, the behavior of WAG/Rij rats didn't significantly differ from that of Wistar rats. Acute (single) injection of selective D2/D3 dopamine receptor antagonist raclopride (100 microg/kg, i.p., 15 min prior to behavioral testing) aggravated the symptoms of depressive-like behavior and suppressed antidepressant effect of chronic injection of imipramine in WAG/Rij rats, whereas it didn't exert a substantial effect on behavior of Wistar rats. Injection of D2/D3 dopamine receptor agonist Parlodel (bromocriptine) counteracted the depressive-like behavior in WAG/Rij rats and didn't exert substantial influence on behavior of Wistar rats with the exception of a decrease in immobility time in the forced swimming test. Injections of imipramine and raclopride didn't exert significant influences on the level of general locomotor activity and anxiety both in WAG/Rij and Wistar rats. The results demonstrate the dopamine-dependent character of depressive-like behavior in WAG/Rij rats, and indicate possible involvement of dopamine D2-like receptors in mediation of the antidepressant effect of imipramine on genetically determined depressive-like behavior in WAG/Rij rats.     

Effects of Neonatal Treatments on Pain and Audiogenic Sensitivity and Brain Content of Monoamines in Adult Rats

In adult Wistar, KM, and Wag/Rij rats, the threshold of pain sensitivity (tail-flick test) and audiogenic sensitivity were estimated after neonatal administration of Semax (analog of ACTG_4–10 fragment) or after placebo (administration of saline for the control of the effect of neonatal pain stimulation). These neonatal treatments did no affect the rates of sensomotor development at an early age (Fox tests), i.e., did not affect directly the physiological activity of rat pups at the age of up to 21 days. In all control rats injected with saline (pain stimulation), the latencies of audiogenic fits increased reliably, while their degree decreased. Administration of Semax raised these parameters to the level of those in intact animals, i.e., increased the sensitivity to sound. Neonatal administration (per os) of caffeine to KM rats increased reliably the latency of audiogenic fits. The thresholds of pain sensitivity in the rats of all strains were significantly lower saline injected animals than in the intact control, just as the level of dopamine in the hippocampus of KM rats. These data are interpreted as an evidence of changes in the development of some brain systems in response to neonatal treatments.     

Remote effects of early postnatal pituitary hormone melatonin injection on audiogenic seizures in Krushinsky-Molodkina rats

Rats Krushinsky-Molodkina inbred strain (KM) genetically prone to audiogenic seizures were injected with pineal hormone melatonin (50 mg/kg, s.c.) within the period 7th to the 14th posnatal days (PND). The remote effects of this injection adult KM rats consisted in a decrease in the latency and increase in severity of myoclonic seizures produced by audiogenic kindling (20 sound stimuli, 100 dB and 12-15 kHz). As compared to the control, in the cortex and hippocampus of rats of melatonin group, we also found a significant reduction of both total and functional activity of Ca2+/calmodulin-dependent protein kinase II (CAMK II) after audiogenic kindling. On the contrary, melatonin administration within the 1st to 7th PND and the 14th to the 21st PND resulted in a decrease in seizure activity. In the first case, both the total (cortical) and functional (hippocampal) CAMK II activities in melatonin-injected rats were increased as compared to control, whereas in the second case, only a slight increase in Ca2+-independent CAMK II activity in the hippocampus of melatonin-injected rats was observed. Probably, the melatonin administration in the period of early postnatal development changes the features of expression and/or regulation of CAMK II activity, and this could be one of the mechanisms of audiogenic seizure modulation in KM rats.     

Effect of neonatal influences on pain and audiogenic sensitivity and the content of monoamines in the adult rat brain

In adult Wistar, KM, and Wag/Rij rats, the threshold of pain sensitivity (tail-flick test) and degree of spasm attack in response to a strong sound were estimated after neonatal administration of Semaks (analog of ACTG4-10 fragment) or after placebo (administration of saline for the control of the effect of neonatal pain stimulation). These neonatal influences did no affect the rates of sensorimotor maturation at an early age (Fox tests), i.e., did not affect directly the physiological activity of rat pups at the age of up to 21 days. In all control rats injected with saline (pain stimulation), the latent periods of audiogenic attacks increased reliably, while their degree decreased. Administration of Semaks "raised" these parameters to the lvl of those in intact animals, i.e., increased the sensitivity to sound. Neonatal administration (per os) of caffeine to KM rats increased reliably the latent period of audiogenic attacks. The thresholds of pain sensitivity in the rats of all strains were significantly lower than in the intact control, just as the level of dopamine in the hippocampus of KM rats. These data are interpreted as an evidence of changes in the development of some brain systems in response to neonatal influences.     

Depression-like changes in behavior and c-fos gene expression in dopaminergic brain structures in WAG/Rij rats

In WAG/Rij rats with genetic absence epilepsy, inborn changes in behavior were observed such as decreased level of locomotion, exploratory activity, and grooming reactions in the open-field test, increased immobility in the forced-swimming test, and decreased sucrose consumption (anhedonia) as compared to Wistar rats completely lacking in seizure pathology. These behavioral alterations in WAG/Rij rats resemble the symptoms of human depression (psychomotor retardation, depressed mood, and anhedonia). No significant behavioral changes were found in the light-dark choice, social interaction, and elevated plus-maze tests. This suggests the absence of increased anxiety in WAG/Rij rats. In contrast to Wistar, WAG/Rij rats were sensitive only to chronic treatment with antidepressant imipramine like depressive patients. Behavioral "despair" induced by forced swimming led to C-fos gene expression in three brain structures (frontal cortex, nucleus accumbens, and striatum), which are, respectively, terminal regions of three dopaminergic brain systems (mesocortical, mesolimbc, and nigrostriatal). c-fos gene expression in the brain of WAG/Rij rats was substantially different from that in the brain of Wistar rats in both intensity (in WAG/Rij the c-fos gene expression was higher than in Wistar rats in all involved brain structures) and its distribution between the structures. The results suggest that WAG/Rij strain is a new experimental (genetic) model of absence epilepsy-related depression unassociated with increased anxiety.     

Elevated levels of calcitonin mRNA: a marker for the spontaneous development of medullary thyroid carcinoma in rats

The aging WAG/Rij rats (a Wistar derived strain) develop spontaneously medullary thyroid carcinoma with a high frequency (50%). We have studied calcitonin biosynthesis in Wistar and WAG/Rij rats strains in order to determine if early changes in this parameter occurred in the WAG/Rij strain. Thyroidal and plasma CT levels were measured in three months old WAG/Rij and Wistar rats before and after acute calcium challenge. Total RNA was extracted from thyroid glands and specific CT messenger RNA levels estimated by dot and Northern blot analysis with a 32P-labeled probe specific for CT mRNA. The capacity of mRNA to direct synthesis of CT precursor was also measured by translation in an in vitro system. Though mean basal circulating CT levels were equivalent in both strains, CT release after calcium stimulation was much increased in the WAG/Rij rat. CT content of the glands and CT mRNA levels were two fold higher in the WAG/Rij strain. Thus, in this strain, CT biosynthesis and secretion were increased long before the development of a C-cell carcinoma.     

Does antiabsence drug ethosuximide exert antidepressant effect?

Antiabsence drug ethosuximide (300 mg/kg/day in drinking water for 17 days) produced an antidepressant effect (a decrease in immobility time in forced swimming test) only in WAG/Rij rats genetically predisposed to absence epilepsy only at age of 5 months when spike-wave discharges well pronounced. On rats without spike-wave discharges (21-day-old WAG/Rij and Wistar rats at the age of both at 21 day and 5 months), ethosuximide didn't produce the antidepressant effect but tended to increases the immobility time and significantly decreases the number of divings (active behavior oriented to escape from stressful situation). Ethosuximide didn't substantially change the anxiety level in WAG/Rij rats but significantly enhanced anxiety in 21-day-old Wistar rats. The results suggest that ethosuximide is not possessed of antidepressant potential unrelated to its suppressive effect on spike-wave discharges.     

Low dose of disulfiram and l-dopa evoked synergistic modification in behavior of Wistar and WAG/Rij rats

Comparative analysis of behaviors of two rat strains, Wistar and WAG/Rij, was performed. No behavioral differences between Wistar and WAG/Rij were found in the emotional resonance test. Disulfiram injection produced similar effects in both rat strains. Animals of the first group (with slow acquisition of emotional resonance reaction) transformed into the animals of the second group (with fast acquisition). Passive avoidance conditioning was successfully reproduced in Wistar and was significantly impaired in WAG/Rij. A low dose of disulfiram injected before or immediately after conditioning substantially improved the reproduction to a greater extent in WAG/Rij than Wistar strains thus eliminating in interstrain differences. Active avoidance conditioning was more successful in WAG/Rij than in Wistar rats However, on the next day conditioning in WAG/Rij was substantially impaired. Administration of the low dose of disulfiram or L-DOPA prior to conditioning impaired the acquisition but improved the reproduction on the following day in both strains, but disulfiram injection after conditioning improved conditioning in WAG/Rij to a greater extent than in Wistar. Thus, the pharmacologic enhancement of the reward system substantially changed animal behavior and improved memory consolidation.     

Behavioral characteristics of female Wag/Rij rats

Behavior of male and female WAG/Rij and Wistar rats was compared in the tests assessing the level of anxiety (light-dark choice, open field) and depression-like state (sucrose intake and preference, forced swimming). Females of WAG/Rij rats like males of the same strain exhibited symptoms of depression-like behavior: increased immobility in the forced swimming test and decreased sucrose intake and preference (anhedonia). In contrast to males, females of WAG/Rij rats displayed more distinct signs of increased anxiety as compared to Wistar rats. Both WAG/Rij and Wistar females exhibited increased locomotor and exploratory activity in the open field as compared to males.     

Effect of seizure activity on subunit composition of Ca2+/calmodulin-dependent protein kinase II in hippocampus of Krushinskii-Molodkina rats

Using a Western blot method it was been shown that a aontent of beta-CaMKII subunit was decreased on 40 % in hippocampus of Krushinskii-Molodkina rats (rats, genetically prone to audiogenic seizures) in comparison with normal Wistar rats. Additionally, we have investigate the temporal modifications of alpha/beta-CaMKII subunits in dependent from number audiogenic fits (n = 1 or n = 5). The level of beta-CaMKII in hippocampus of naive KM rats and KM rats in 24 h after single audiogenic seizure was not different, but it was increased on 56 % through 72 h after convulsion fit. In contrast, both 5-fold seizures and 20-fold seizures (audiogenic kindling) reduced the beta-CaMKII levels in comparison with naive group. The levels of alpha-subunit protein kinase in hippocampus these experimental groups of animals were not different. We suggest a hypothesis, that modifications alpha/beta ratio can be viewed as specific "homeostatic mechanism", which provide for neuronal function in hippocampus, thereby changing the rules governing synaptic plasticity in dependence from preliminary neuronal activity.     

Loss of calcitonin binding in rat is not related to calcitonin receptor gene abnormality.

C-cell tumors occur frequently (50%) in old WAG/Rij rats. Interestingly, genetically transmitted loss of CT binding sites in the kidney has also been demonstrated in WAG/Rij rats. To determine if these issues are resulted from mutation of calcitonin receptor (CTR), we analyzed the CTR genomic abnormality in WAG/Rij rat. We demonstrated that both Wistar and WAG/Rij rats expressed type-C1a CTR by RT-PCR analysis and their mRNA expressions were approximately equal by Northern blotting analysis. Direct sequence of RT-PCR products for CTR showed no different nucleotide sequences between the two strains. There were three polymorphisms at the first transmembrane domain and the fourth intracellular membranes, which are different from Sprague-Dawley rat. We concluded that the loss of CT binding in WAG/Rij rat is not related to CTR gene abnormality. Abnormal system of CTR amino acid modification may be occurred in WAG/Rij rat.     

The Modulatory Effect of Metabotropic Glutamate Receptor Type-1α on Spike-Wave Discharges in WAG/Rij Rats

Modulatory function of metabotropic glutamate type 1 (mGlu1) receptors plays a crucial role in the pathophysiology of some neurological disorders, including schizophrenia and epilepsy. In this study, the expression of mGlu1α receptors in the thalamic nuclei was assessed during development of absence seizures in the WAG/Rij rats, a valid genetic animal model of absence epilepsy. In addition, the effect of pharmacological modulation of mGlu1α receptors in the laterodorsal (LD) nucleus of the thalamus on the characteristic features of bioelectrical brain activities in the WAG/Rij rats was assessed. The expression of mGlu1α receptors in the LD was assessed in four experimental groups of both WAG/Rij and Wistar rats with 2 and 6 months of age. Agonist and antagonist of mGlu1α receptors were infused in LD in the six months old WAG/Rij (epileptic) rats. The protein level of mGlu1α receptors in the thalamus of the 6-month-old WAG/Rij rats was lower than non-epileptic animals. In addition, the distribution of mGlu1α receptors in different thalamic nuclei was lower in the 6-month-old WAG/Rij compared to age-matched Wistar rats. The gene expression of mGlu1α receptor was also significantly lower in 6-month-old WAG/Rij rats in the LD compared to other animal groups. The microinjection of mGlu1α receptors agonist and antagonist in the LD reduced the duration of spike-wave discharges (SWDs) and increased the amplitude and duration of SWDs, respectively, in 6-month-old WAG/Rij rats. The alterations of mGlu1α receptors expression in the thalamus of epileptic WAG/Rij rats as well as its modulatory effects in the generation of SWDs suggest the potential of mGlu1 receptors as a therapeutic target in absence epilepsy.     

Study of Uridine Effect on the Development of Audiogenic Tonic Seizures in Krushinsky–Molodkina Strain Rats

The latency of tonic seizure in response to loud sound (in rats of the Krushinsky–Molodkina strain with audiogenic epilepsy) had been slightly (although statistically significantly) longer after chronic uridine injections (100 mg/kg, i.p., three times a day during 9 or 12 days). The recovery time from the tonic seizure was shorter after 12 days of injections in comparison to the 9-day injection period. At the same time, the intensity of tonic seizures provoked by loud sound did not change after chronic uridine injections. The lack of uridine anticonvulsive effect demonstrated in the audiogenic epilepsy model contradicts the anticonvulsant effects of uridine in experiments with other seizure models, in which the epileptic foci were localized in the forebrain structures.     

Anxiety and behavior in WAG/Rij strain rats with genetically induced absence attacks

Behavior of nonlinear rats and animals from Wistar and WAG/Rij (with inborn generalized absence epilepsy) strains was examined in the elevated plus-maze and the hole board. WAG/Rij rats demonstrated low exploratory behavior in both tests. In the elevated plus-maze, WAG/Rij rats were more balanced and more anxious than Wistar and nonlinear rats. Administration of ethosuximide completely eliminated spike-wave discharges but did not change behavioral interstrain differences. Since the spike-wave patterns develop in WAG/Rij at the age of 3 months, the behavior of young (2-moth-old) pups from different strains was compared and significant differences were revealed. Correlation between the genetically defined features (spike-wave discharges) and behavioral peculiarities in WAG/Rij rats is supposed.     

Audiogenic kindling changes the subunit composition of BK-channels in dentate gyrus of Krushinskii-Molodkina rats

Subunit composition of voltage- and Ca²⁺-sensitive high-conductance K⁺ channels (BK channels) in dentate gyrus (DG) of Krushinskii-Molodkina (KM) rats, genetically prone to audiogenic seizures, was compared with that of normal Wistar rats, resistant to sound effects. Additionally, long-lasting changes in protein expression of α- and β4-subunits in DG of KM rats after audiogenic kindling (model of temporal lobe epilepsy) was investigated. Western blot analysis revealed no differences between the levels of the pore-forming α-subunit expression in DG of KM and Wistar rats. In contrast, the level of brain-specific auxiliary β4-subunit in DG of KM rats was increased twofold in comparison to that in Wistar rats. It is likely that the observed changes in the BK channel α/β4 subunits ratio can prevent the development of excessive neuronal exitability in DG of KM rats. The results obtained on the model of audiogenic kindling (20 convulsion fits) confirmed this assumption. Thus, α-subunit expression levels in DG of KM rats on day 3 and 14 after the last seizure were increased 2.5 times in comparison with intact KM rats. The expression level of β4 in DG of KM rats 3 days after kindling was reduced to 30% of the control level. On day 14 after finishing audiogenic kindling, a further reduction of β4 protein expression level occurred. We suggest that the changes in the subunit composition of BK channels in DG following chronic seizures can alter functional properties of DG as a physiological filter, which normally prevents the propagation of epileptiform activity in the hippocampus.     

Involvement of NMDA receptors in non-convulsive epilepsy in WAG/Rij rats

The involvement of the NMDA receptor in spontaneous non-convulsive epilepsy was studied by intracerebroventricular injections of APH and NMDA in WAG/Rij rats. The WAG/Rij rat strain is recognized as an animal model for human absence epilepsy. EEG registrations showed that APH (5 nmol/5 microliters; 25 nmol/5 microliters; 50 nmol/5 microliters) causes a dose-dependent decrease in the number and mean duration of the spike-wave discharges, while NMDA (50 pmol/5 microliters; 500 pmol/5 microliters; 5 nmol/5 microliters) induces a dose-dependent increase in the number. The effects of NMDA (5 nmol/5 microliters) can be blocked completely by APH (50 nmol/5 microliters). These results suggest an involvement of the NMDA receptor in experimental non-convulsive epilepsy, observed in the WAG/Rij model.     

The induction and abolition of specific immunosuppression of heart allografts in rats by use of donor blood and cyclophosphamide.

Intravenous pretreatment of WAG/Rij rats with BN blood 14 days before transplantation leads to permanent survival of BN heart allografts. Pretreatment with donor blood in the reverse donor-host combination gives rise to accelerated rejection of WAG/Rij hearts. Addition of 100 mg/kg Cy to the pretreatment with donor blood in the WAG/Rij to BN model resulted in permanent graft acceptance, presumably due to the phenomenon of immunologic enhancement. This effect could be observed only if the interval between drug administration and antigen pretreatment was short. The use of Cy had a more profound and long-lasting effect on humoral than on cellular immunity. Addition of 100 mg/kg Cy to the active enhancement protocol in the "easy" BN to WAG/Rij combination produced permanent graft survival in an immunologic setting reminiscent of immunologic tolerance. The combined pretreatment with donor blood and 50 mg/kg Cy in this donor-host combination abolished the operation of immunologic enhancement, which could be induced if donor blood was given alone.     

The interstrain differences in the effects of D-amphetamine and raclopride on dorsal striatum dopaminergic system in KM and Wistar rats (microdialysis study)

The levels of dopamine (DA) was determined by intracerebral microdialysis in vivo in KM rats selected for high audiogenic epilepsy, and in Wistar rats selected for nonsusceptibility to loud sound. The basal level of dopamine was 25% higher in the KM rats (P < 0.05). A single amphetamine injection (1 mg/kg body weight, intraperitoneously) caused a significant increase in the DA basal level up to 250-260% in animals of both genotypes. However, in Wistar rats, the level of DA reached maximum as soon as 20 min after amphetamine administration, whereas in KM rats, this happened only after 120 min. After a single injection of the antagonist of D2 and D3 dopamine receptors raclopride (1.2 mg/kg of body weight, intraperitoneously), an increase in the level of DA was similar in amplitude in rats of both genotypes (up to about 210%); however, this occurred 20-30 and 100 min after raclopride administration to Wistar and KM rats, respectively. This evidence suggests that the genetic defect of KM rats, namely, the high level of audiogenic epilepsy, is caused by abnormalities of the neuromediator brain systems and presumably accompanied by the regulatory gene dysfunction.