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 D2/D3 dopamine receptor antagonist 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 neurotransmitter brain systems and presumably accompanied by the regulatory gene dysfunction.     

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.     

Evidence for D2 receptor mediation of amphetamine-induced normalization of locomotion and dopamine transporter function in hypoinsulinemic rats

Dopamine (DA) D2 receptors regulate DA transporter (DAT) activity, and mediate some behavioral effects of amphetamine. DA clearance and amphetamine-stimulated locomotion are reduced in hypoinsulinemic [streptozotocin (STZ)-treated] rats, and these deficits are normalized by repeated treatment with amphetamine. Here, a role for D2 receptors in mediating amphetamine-induced normalization of these parameters was investigated. One week after a saline or STZ injection (50 mg/kg), rats were treated with amphetamine (1.78 mg/kg), raclopride (0.056 mg/kg), saline, or combinations thereof, every-other-day for 8 days with locomotor activity measured following each treatment. Conditioned place preference (CPP) for amphetamine and in vivo chronoamperometry to measure DA clearance were carried out on days 17 and 18, respectively, after STZ or saline. Baseline locomotion and DA clearance were significantly reduced in STZ-treated rats compared with control rats. In STZ-treated rats, amphetamine treatment normalized DA clearance, and restored the locomotor-stimulating effects of amphetamine. Raclopride prevented normalization of these parameters. Amphetamine produced CPP in both STZ-treated and control rats; raclopride significantly attenuated amphetamine-induced CPP in control and not in STZ-treated rats. These results support a role for D2 receptors in regulating DA transporter activity, and further demonstrate that D2 receptors contribute to changes in sensitivity to amphetamine in hypoinsulinemic rats.     

The influence of neonatal ketamine injection on pain sensitivity and audiogenic seizures in adult rats

The remote effects of neonatal (on the 3d-to-9th postnatal days) ketamine injections (10 and 50 mg/kg in 20 microliters of distilled water, s.c.) were analyzed in adult Wistar, WAG/Rij, and KM (a strain with high audiogenic sensitivity) rats. Both ketamine and water injections increased pain sensitivity in adult rats. Neonatally injected water increased the mean score of seizures in Wistar and WAG/Rij, whereas ketamine water solution injected in the dose of 50 mg/kg did not change the seizure intensity (as compared to the intact control). Consequently, ketamine significantly reduced the mean score of the audiogenic seizure fit without change in its latency. In highly sensitive KM rats the neonatally injected ketamine (50 mg/kg) significantly shortened the mean latency of the fit onset, and fit stages developed faster. Thus, the neonatal ketamine injection increased the audiogenic seizure susceptibility of brain structures 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.     

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.     

Laboratory rat selection for the trait “the absence of audiogenic seizure proneness”

The hybrids between Krushinsky-Molodkina (KM) inbred strain, selected for high predisposition to audiogenic epilepsy (AE), and Wistar rats non-prone to audiogenic seizure were the initial population for selection. Rats were selected for the trait ??the absence of audiogenic seizure proneness??. The creation of such strain in which the significant proportion of animals develop no AE in response to sound and share partly the genetic background of the KM strain is very important for the correct use of KM strain as the laboratory model of seizure states. As alleles which determine the AE proneness are recessive the selection for the ??opposite?? trait proceeds necessarily slow.     

Morphofunctional features of microtubule ultrastructure and MAP2 protein phosphorylation in hippocampal neurons of rats with predisposition to audiogenic epilepsy

It has been shown that modification of microtubule (MT) ultrastructure are accompanied by functional changes in microtubule-associated protein MAP2 in the hippocampus of Krushinsky--Molodkina rats (KM), which are prone to autogenic seizures. The morphogenetic analysis revealed that contrary to Wistar rats, which are insensitive to sound stimulation, in KM the middle length of microtubule fragments in the apical dendrites of pyramidal neurons in CA3 hippocampal area was reduced. Using immunoblot and autoradiography methods, we found that the level of MAP2 and the rate of its cAMP = and Ca(2+)-calmodulin-dependent phosphorylation were increased in hippocampus of KM, in comparison with Wistar rats. Daily repeated sound stimulation for 20 days (audiogenic kindling) induced a further decrease in length of MT fragments, and an increase of their density in the proximal part of apical dendrites of KM. Moreover, audiogenic kindling induced additional increase in MAP2 phosphorylation state, but did not change the level of MAP2 in KM hippocampus. We suppose that the obtained alteration of MAP2 phosphorylation state exerted influence on kinetic parameters of microtubule assembly, serving as part of genetically determined predisposition of KM to audiogenic epilepsy.     

Laboratory rat selection for the trait "the absence of audiogenic seizure proneness"

The hybrids between Krushinsky-Molodkina (KM) inbred strain, selected for high predisposition to audiogenic epilepsy (AE), and Wistar rats non-prone to audiogenic seizure were the initial population for selection. Rats were selected for the trait "the absence of audiogenic seizure proneness". The creation of such strain in which the significant proportion of animals develop no AE in response to sound and share partly the genetic background of the KM strain is very important for the correct use of RV strain as the laboratory model of seizure states. As alleles which determine the AE proneness are recessive the selection for the "opposite" trait proceeds necessarily slow.     

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.     

Moderate body hypothermia alleviates behavioral and EEG manifestations of audiogenic seizures in metaphit-treated rats

We investigated the effects of hypothermia on the incidence and EEG signs of audiogenic seizures in rats treated with metaphit (1-[1(3isothiocyanatophenyl)-cyclohexyl] piperidine), an experimental model of generalized reflex epilepsy. After i.p. injection with metaphit (10 mg/kg) Wistar rats were exposed to audiogenic stimulation at hourly intervals during the time course of the experiment. After intermittent use of an ice pack 8 h after the metaphit treatment, when seizure was fully developed, the body temperature was reduced to 30 +/- 0.5 degrees C in one half of the rats, and maintained at 37 +/- 0.5 degrees C in the other half. Saline-injected rats served as a control group. In the hypothermia group, the incidence of audiogenic seizures induced by metaphit was completely suppressed during the 3 consecutive testing times, while no signs of epileptiform activity were noted in EEG tracings. The termination of hypothermic treatment resulted in the recovery of seizure susceptibility, and during audiogenic stimulation, bursts of spiking activity were recorded in the EEGs of metaphit-treated rats. These findings indicate that moderate body hypothermia is an effective anticonvulsant treatment for audiogenic seizures in metaphit-treated rats.     

Deficits in dopamine clearance and locomotion in hypoinsulinemic rats unmask novel modulation of dopamine transporters by amphetamine

Insulin affects brain reward pathways and there is converging evidence that this occurs through insulin regulation of the dopamine (DA) transporter (DAT). In rats made hypoinsulinemic by fasting, synaptosomal DA uptake is reduced. Interestingly, [3H]DA uptake is increased in hypoinsulinemic rats with a history of amphetamine self-administration. The possibility that amphetamine and insulin act in concert to regulate DAT activity prompted this study. Here we show that [3H]DA uptake, measured in vitro and clearance of exogenously applied DA in vivo, is significantly reduced in rats made hypoinsulinemic by a single injection of streptozotocin. Strikingly, amphetamine (1.78 mg/kg, given every other day for 8 days) restored DA clearance in streptozotocin-treated rats but was without effect on DA clearance in saline-treated rats. Basal locomotor activity of streptozotocin-treated rats was lower compared to control rats; however, in streptozotocin-treated rats, hyperlocomotion induced by amphetamine increased over successive amphetamine injections. In saline-treated rats the locomotor stimulant effect of amphetamine remained stable across the four amphetamine injections. These results provide exciting new evidence that actions of amphetamine on DA neurotransmission are insulin-dependent and further suggest that exposure to amphetamine may cause long-lasting changes in DAT function.     

Interaction of Delta Sleep-inducing Peptide and Valproate on Metaphit Audiogenic Seizure Model in Rats

Effects of valproate (VPA), a conventional antiepileptic drug and natural delta sleep-inducing peptide (DSIP) on metaphit (1-[1-(3-isothiocyanatophenyl)-cyclohexyl]-piperidine)-induced audiogenic reflex epilepsy were studied. For the purpose of the study, valproate in the doses of 50 or 75 mg/kg and DSIP (1.0 mg/kg) was i.p. injected either alone or in combination to adult Wistar male rats with fully developed metaphit seizures after eight audiogenic testing. The animals were stimulated using an electric bell (100 ± 3 dB and 5–8 kHz, for 60 s) 60 min after metaphit injection and afterwards at hourly intervals during the experiment. For EEG recording and power spectra analysis, three gold-plated screws were implanted into the scull. In EEGs of metaphit-treated animals polyspikes, spike-wave complexes and sleep-like patterns were recorded, while the power spectra were increased. Combined treatment of metaphit-induced seizures with valproate and DSIP was more effective than drugs alone especially during 4 h after administration. None of the applied dose combinations eliminated the EEG signs of metaphit-provoked epileptiform activity. Taken together, the results of the present study suggest that the combinations of valproate and DSIP should be considered as beneficial polytherapy in metaphit model of epilepsy.     

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.     

Dose Response for Amphetamine-Induced Changes in Dopamine Levels in Push-Pull Perfusates of Rat Striatum

Levels of dopamine were determined in push-pull perfusates of striatum in chloral hydrate-anesthetized rats as a function of increasing systemic doses of amphetamine over the range 0.5-5.0 mg/kg. In the absence of amphetamine administration, basal dopamine levels remained stable for at least 6 h. Perfusate levels of dopamine responded in a quantitatively predictable fashion to increasing doses of amphetamine: (1) the maximal increase in perfusate levels of dopamine after amphetamine, relative to predrug levels, was directly proportional to the dose of the drug up to 3 mg/kg (fivefold after 0.5 mg/kg to 30-fold after 3 mg/kg); (2) the duration over which perfusate levels of dopamine were significantly elevated, with respect to preamphetamine levels, was proportional to the dose of amphetamine up to 5 mg/kg; and (3) each successively higher dose of amphetamine significantly increased the perfusate level of dopamine over that observed at the next lower dose up to 3 mg/kg amphetamine. However, maximal levels of dopamine in striatal perfusates were achieved following 3 mg/kg amphetamine and were not increased further at higher doses of the drug. The data suggest that, at higher doses of amphetamine, extraneuronal metabolism of dopamine may be of sufficient capacity to limit increases in synaptic levels of dopamine. The absence of further increases in perfusate levels of dopamine as the dose of amphetamine is increased beyond 3 mg/kg is discussed in terms of potential relevance to mechanisms of amphetamine-induced stereotyped behaviors.     

Involvement of D1 dopamine receptors in the nicotine-induced noradrenaline release from hypothalamic and preoptic noradrenaline nerve terminal systems

Nicotine (4 × 2 mg/kg, i.p.) was given every 30 min for 2 h to male rats. Some rats were pretreated with the D1 dopamine (DA) receptor antagonist SCH 23390 (1 mg/kg, i.p.) or with the D2 DA receptor antagonist raclopride (1 mg/kg, i.p.), 5 min before nicotine treatment. Hypothalamic and preoptic catecholamine levels were measured by quantitative histofluorimetry in discrete DA and noradrenaline nerve terminal systems.Nicotine treatment produced a depletion of catecholamine stores in noradrenaline and DA nerve terminals of the hypothalamus, the preoptic area and the median eminence, an action which was counteracted by SCH 23390 but not by raclopride.The results indicate that hypothalamic D1 DA receptors may regulate the sensitivity of the nicotinic cholinoceptors and increase their ability to release hypothalamic noradrenaline. A possible role of D1 DA receptor antagonists to reduce the ability of nicotine treatment to produce rapid increases in LH, prolactin and corticosterone secretion and tonic arousal is implicated.     

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.     

Alterations in amphetamine-induced locomotor activity and stereotypy after electrical stimulation of the nucleus accumbens and neostriatum

The exacerbation of the locomotor and stereotypic effects of amphetamine after repeated drug administration is well documented. To elaborate on the involvement of the nigrostriatal and mesolimbic dopamine (DA) systems in modulating behavioral sensitization, locomotor activity and the time spent engaged in repetitive stereotyped behaviors following systemic amphetamine injection were assessed after electrical stimulation of the nucleus accumbens and neostriatum. It was found that exposure to repeated sessions of high frequency, low current stimulation of the anteromedial neostriatum and nucleus accumbens significantly enhanced the locomotor excitation induced by administration of 3.0 mg/kg of amphetamine. Stereotypic behaviors were also modified as a function of electrical stimulation of these brain regions, with the development of a significant decrease in the duration of focused head and body movements corresponding to the facilitated locomotor effects of the drug. Taken together, these data provide additional evidence demonstrating the interdependent relationship between amphetamine-elicited locomotor activity and stereotypy, and were discussed in terms of a functional interaction between mesolimbic and nigrostriatal systems in determining the behavioral profile of amphetamine administration.     

3H-1-glutamate binding with the synaptic membranes isolated from the cerebral cortex and hippocampus of Krushinski?-Molodkina strain rats

Specific binding of 3H-L-glutamate to synaptic membranes isolated from the cerebral cortex and hippocamp of Wistar and Krushinsky-Molodkina (KM) rats examined both in a quiet awake state and after audiogenic seizures was compared. The dissociation constant (KD) values and binding capacity (Bmax) for KM rats did not differ significantly from the corresponding parameters of binding determined for Wistar rats (KD--89.8 +/- 18.1 and 102.6 +/- 12.5 nm, Bmax--1.23 +/- +/- 0.08 and 1.30 +/- 0.15 pmol/mg for the cortex and hippocamp, respectively). After audiogenic seizures the binding capacity of the hippocamp of KM rats was reduced by 30%. It is suggested that hippocampal glutamate receptors of KM rats are involved in the mechanism of convulsive activity formation.     

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.