Effect of lacosamide on structural damage and functional recovery after traumatic brain injury in rats.

In a subgroup of patients, traumatic brain injury (TBI) results in the occurrence of acute epileptic seizures or even status epilepticus, which are treated with antiepileptic drugs (AEDs). Recent experimental data, however, suggest that administration of AEDs at the early post-injury phase can compromise the recovery process. The present study was designed to assess the profile of a novel anticonvulsant, lacosamide (Vimpat) on post-TBI structural, motor and cognitive outcomes. Moderate TBI was induced by lateral fluid-percussion injury in adult rats. Treatment with 0.9% saline or lacosamide (30 mg/kg, i.p.) was started at 30 min post-injury and continued at 8h intervals for 3d (total daily dose 90 mg/kg/d). Rats were randomly assigned to 4 treatment groups: sham-operated controls treated with vehicle (Sham-Veh) or lacosamide (Sham-LCM) and injured animals treated with vehicle (TBI-Veh) or lacosamide (TBI-LCM). As functional outcomes we tested motor recovery with composite neuroscore and beam-walking at 2, 7, and 15 d post-injury. Cognitive recovery was tested with the Morris water-maze at 12-14 d post-TBI. To assess the structural outcome, animals underwent magnetic resonance imaging (MRI) at 2 d post-TBI. At 16d post-TBI, rats were perfused for histology to analyze cortical and hippocampal neurodegeneration and axonal damage. Our data show that at 2 d post-TBI, both the TBI-Veh and TBI-LCM groups were equally impaired in neuroscore. Thereafter, motor recovery occurred similarly during the first week. At 2 wk post-TBI, recovery of the TBI-LCM group lagged behind that in the TBI-VEH group (p<0.05). Performance in beam-walking did not differ between the TBI-Veh and TBI-LCM groups. Both TBI groups were similarly impaired in the Morris water-maze at 2 wk post-TBI. MRI and histology did not reveal any differences in the cortical or hippocampal damage between the TBI-Veh and TBI-LCM groups. Taken together, acute treatment with LCM had no protective effects on post-TBI structural or functional impairment. Composite neuroscore in the TBI-LCM group lagged behind that in the TBI-Veh group at 15 d post-injury, but no compromise was found in other indices of post-TBI recovery in the LCM treated animals.

Long-term effects of prenatal stress experiences and postnatal maternal separation on emotionality and attentional processes.

Postnatal environmental manipulations naturally occur on the background of prenatal experiences. In the laboratory rat, both pre- and postnatal environmental manipulations have been shown to alter adult behaviour. Additionally, it has been demonstrated that the consequences of postnatal manipulations can be altered by previous prenatal stress experience (PS). In the present study, we investigated long-term behavioural consequences of combined PS and postnatal experience, namely repeated maternal separation (MS). PS primarily increases emotionality and fear-related behaviour, while postnatal repeated MS has been previously reported to affect primarily attentional processes. Thus, we tested adult male and female Wistar rats on paradigms involving both emotionality and attention, namely open field, prepulse inhibition (PPI), and latent inhibition (LI) in the active avoidance and the conditioned emotional response paradigms. In line with previous reports, PS decreased open-field locomotion and impaired avoidance learning (increased emotionality), while MS enhanced LI (selective attention) and improved avoidance learning. Further, PS also increased PPI. There was little interaction between the two manipulations: The increased PPI seen after PS was normalised by MS, and the MS-induced enhancement of LI (using the active avoidance paradigm) was not evident in subjects previously subjected to PS. Taken together, these results suggest that the effects of PS and repeated MS are not synergistic in any of the investigated paradigms but can antagonise each other. Thus, in assessing the effects of postnatal manipulations, attention should be paid to the inadvertent occurrence of prenatal stress.

Lewis/Fischer rat strain differences in endocrine and behavioural responses to environmental challenge.

The Lewis (LEW) and Fischer (F344) rat strains provide a comparative model of hypothalamic-pituitary-adrenal (HPA) function in which LEW is relatively hypoactive at homeostasis and hyporeactive to environmental challenge. The present study describes a comparison of LEW and F344 rats, males and females, in terms of their corticosterone (CORT) or behavioural responses to a range of behavioural tasks, where each of the tasks used contains a stressor component and has been demonstrated to be sensitive to corticotropin releasing factor (CRF) and/or CORT manipulation: acoustic startle response (ASR), elevated plus maze, schedule-induced polydipsia, and fear-conditioned suppression of drinking. Our aim was to determine to what extent the LEW trait of HPA axis hyporesponsiveness is associated with strain differences in behavioural responsiveness to environmental challenge. As expected, young (2-3 months)-mature (5-10 months) LEW males and females exhibited a lesser CORT response to restraint and novel confinement than did F344 males and females, although in old adulthood (18 months) the CORT stress response was equable in LEW/F344 males and actually higher in LEW than in F344 females. In young-mature adults, the ASR was greater in LEW males than in the other groups; all groups spent a low proportion of time on the open arms of the elevated plus maze; polydipsia was greater in F344 females than in the other groups; and fear-conditioned suppression of drinking was greater in F344 males and females than in LEW males and females. Therefore, relative hyporeactivity of the HPA axis in LEW rats is clearly not associated with uniform behavioural hyporeactivity, including CRF-dependent behaviours. Rather, this study suggests further evidence that environmental reactivity reflects a number of distinct emotional states and underlying neural circuits.

Stress- and corticosteroid-induced modulation of the locomotor response to morphine in rats.

Stress alters the sensitivity to drugs of abuse and is, therefore, considered to be an important contributory factor to drug-seeking behaviour. There is only a limited amount of information available on stress-induced alterations in the behavioural response to opioids. We thus evaluated the influences of different stressors (restraint, handling, social defeat) on the locomotor effects induced by morphine. Further the importance of additional factors such as the number of stress events or the delay between stress and locomotor testing on stress-induced alterations were evaluated. Since these modulatory effects of stress on the locomotor effects of morphine might be mediated via the release of endogenous corticosteroids we also tested the influence of repeated intermittent and chronic administration of corticosterone (CORT) and the synthetic corticosteroid dexamethasone (DEX) on the locomotor response to morphine. Enhanced morphine-induced locomotor activity was observed in response to the repeated application (three times) of all stressors: restraint, handling and social defeat. An augmentation of the locomotor effects of a low (1 and 5 mg/kg) but not of a high dose (10 mg/kg) of morphine was seen after three, but not after one stress event. In addition, the repeated application of restraint stress (three times) resulted in an augmentation of morphine-induced locomotor stimulation 3 days, but not 1 or 10 days , after the last stress event. Similarly the repeated intermittent and chronic administration of corticosteroids, in particular of DEX, increased morphine's efficacy in stimulating locomotor activity. Our results show that stress is able to alter the locomotor stimulant effects of morphine in rats--a phenomenon called stress-induced behavioural sensitization. Moreover, these stress-induced alterations depend upon temporal factors such as number of stress events and the interval between stress and locomotor testing. Further, stress-induced CORT-release seems to be involved in stress-induced behavioural sensitization to morphine.

Behavioural and hormonal differences between two Lewis rat lines.

Lewis (LEW) is an inbred strain of rats frequently used as an animal model of autoimmune diseases. However, there is evidence that some lines of LEW rats develop autoimmune diseases more readily than do other LEW rat lines. Because the hypothalamus-pituitary-adrenal system is involved in the pathophysiology of these diseases, we compared two LEW lines (SsNHsd and HANRijHsd) in their behavioural and neuroendocrine response to stress. In addition, we studied the psychostimulant effects of acute and repeated amphetamine in these two LEW rat lines. HAN rats were less active in the open field test and showed faster habituation of novelty-induced locomotion. The acoustic startle response was lower in HAN than in SSN rats, whereas prepulse inhibition of the startle response was greater in the HAN than in the SSN LEW subline. Moreover, HAN rats showed impaired acquisition of the two-way active avoidance response relative to SSN rats. The psychostimulant effects of acute amphetamine were smaller in HAN rats. Following repeated injections of amphetamine, behavioural sensitization to the psychostimulant effects of amphetamine was more pronounced in HAN than in SSN rats. Basal concentrations of serum corticosterone did not differ between the two rat lines. Following stress, however, HAN rats showed slightly higher corticosterone secretion than SSN rats. Our results show that two sublines of the LEW inbred strain of rats show profound behavioural differences which are only marginally paralleled by differences at the level of the HPA system.

Comparisons of the densities of NADPHd reactive and nNOS immunopositive neurons in the hippocampus of three age groups of young nonhandled and handled rats.

The complete absence of handling of male rats during neonatal development (from birth to postnatal day 21) correlates with an impairment of latent inhibition [J. Feldon, I. Weiner, From an animal model of an attentional deficit towards new insights into the pathophysiology of schizophrenia, J. Psychiatr. Res. 26 (1992) 345-366.]. Such nonhandling of rats reportedly also correlates with a decreased expression of reduced nicotinamide adenine dinucleotide phosphate-diaphorase (NADPHd) reactivity in the hippocampus in adult rats (6 months of age) when compared with rats of the same age that were handled during the same neonatal period [R.R. Vaid, B.K. Yee, U. Shalev, J.N. Rawlins, I. Weiner, J. Feldon, S. Totterdell, Neonatal nonhandling and in utero prenatal stress reduce the density of NADPH-diaphorase-reactive neurons in the fascia dentata and Ammon's horn of rats, J. Neurosci. 17 (1997) 5599-5609.]. The present study investigated whether such a decrease in NADPHd activity would be detectable at earlier ages. Therefore, the present study assessed the density of nitric oxide (NO) producing neurons in the fascia dentata and Ammon's horn in 28-, 54-, and 118-day-old nonhandled and handled male rats using NADPHd histochemistry and immunohistochemical localization of neuronal isoform of nitric oxide synthase (nNOS), a NADPHd. This showed that in these three age groups, the numbers of NADPHd positive neurons per unit area throughout the hippocampus of rats that received no handling during neonatal development did not differ significantly from those of rats that received regular daily handling. In addition, we found in the rats of 118 days of age that the areal density of nNOS immunopositive neurons in the hippocampus also did not differ significantly between nonhandled and handled rats. Nevertheless, in a parallel study, rats from the same experimental group receiving identical treatments showed the expected impairment of latent inhibition at 4 months of age [R. Weizman, J. Lehmann, S. Leschiner, I. Allmann, T. Stoehr, C. Heidbreder, A. Domeney, J. Feldon, M. Gavish, Long-lasting effect of early handling on the peripheral-type benzodiazepine receptor, Pharmacol. Biochem. Behav. in press.]. These results suggest that nonhandling of rats during the early neonatal period, that does result in impairment in latent inhibition, does not affect the numbers of NO producing neurons in the hippocampus in rats of young ages, including the age of observed impairment of latent inhibition.

Differential effects of prenatal stress in two inbred strains of rats.

The long-term effects of prenatal stress (three times daily restraint stress during the last week of gestation) on the behavioral response to stress, as assessed by novelty-induced locomotion, performance in the forced swim test, and the acquisition of a two-way active avoidance, were investigated in two inbred strains of rats, Fischer 344 (F344/NHsd/Zur) and Lewis (LEW/SsNHsd/Zur). Additional measures included birth weights, pain threshold on the hot plate, and basal and stress-induced corticosterone secretion. In all of the behavioral paradigms strain differences were found: LEW rats showed poorer acquisition of avoidance conditioning, displayed higher levels of activity on the open plate, less immobility time in the forced swim test, and lower pain thresholds in the hot-plate test compared with F344 rats. LEW rats had higher birth weights after prenatal stress, whereas F344 rats were lighter. Following prenatal stress the pattern of behavioral effects obtained in LEW rats in stress-related tests could be interpreted as improved coping abilities with stress, i.e., improved acquisition of active avoidance, less immobility in the forced swim test, and reduced novelty-induced locomotion. Prenatal stress was much less effective in inducing long-term behavioral changes in F344 rats, yielding only one effect, namely, enhanced novelty-induced locomotion in female F344 rats. Pain thresholds were increased as a consequence of prenatal stress, irrespective of strain and gender. Basal and stress-induced corticosterone release differed in the two strains, with LEW rats showing less stress-induced corticosterone release. Prenatal stress did not, however, affect basal or stress-induced corticosterone release. The results suggest that prenatal stress exerts long-term effects on behavior, which depend on the genetic background.

Rat strain differences in open-field behavior and the locomotor stimulating and rewarding effects of amphetamine.

Fischer 344 (F344) and Lewis (LEW) rats show considerable neuroanatomical and neurophysiological differences within the mesolimbic dopamine system. The aim of our experiments was to study the functional correlates of such differences by examining open-field behavior and the sensitivity towards the psychostimulant and rewarding effects of amphetamine in male and female, F344 and LEW rats. In addition, the consequences of short versus extended habituation to open-field testing on amphetamine locomotion in these two rat strains was assessed. LEW but not F344 rats irrespective of gender showed between-session habituation of open-field activity. Amphetamine-induced locomotion was higher in F344 compared to LEW rats and in females compared to male rats. In addition, extended habituation increased the locomotor effects of amphetamine. The rewarding effects of amphetamine as measured by the conditioned place preference test were more pronounced in F344 than in LEW rats. Our results suggest that the two rat strains differed in their behavioral response to mild stress and to amphetamine and that these differences may depend upon differences within the mesolimbic dopamine system.

Long-term effects of repeated maternal separation on three different latent inhibition paradigms.

In the present study we investigated the effect of repeated maternal separation on postnatal days 12, 14, 16, and 18 for 6 h/day on Wistar rats on three latent inhibition (LI) paradigms: two-way active avoidance, conditioned emotional response (CER), and conditioned taste aversion (CTA). In addition, hyperactivity induced by d-amphetamine and stereotypies induced by apomorphine were evaluated. In all three LI experiments, the control animals showed only marginal LI, whereas the maternally separated animals showed enhanced LI (only males in CTA). In two-way active avoidance within the nonpreexposed condition maternally separated animals showed improved acquisition of avoidance learning compared with the control animals. Sensitivity in response to amphetamine and apomorphine was not altered by the maternal separation procedure. Thus, maternal separation in this study, contrary to previous reports, but in line with results obtained following early handling before weaning, led to enhancement of the LI phenomenon as assessed in each of the three procedures. As our maternal separation procedure (6 h on days 12, 14, 16, and 18) led to behavioral outcomes that differed from those reported by Ellenbroek and Cools (24 h on day 10), it is suggested that maternal separation regimens that are dissimilar may lead to different and sometimes opposite behavioral effects.

Centrally administered oligodeoxynucleotides in rats: occurrence of non-specific effects.

We studied the effects of various intracerebroventricularly administered oligodeoxynucleotides on body temperature, locomotor activity, food intake and water consumption in rats during a 24 h period with a radio-telemetric system. Both complete phosphorothioate oligodeoxynucleotides and end-inverted oligodeoxynucleotides dose-dependently elevated body temperature, suppressed food and fluid intake and inhibited nighttime activity. Apparently these effects do not depend on the nucleotide sequence because antisense and sense arginine vasopressin and oxytocin oligodeoxynucleotides, as well as a missense oligodeoxynucleotide produced comparable changes in the autonomous and behavioral parameters. In control experiments neither contaminants from the chemical synthesis nor endotoxins produced such effects, whereas native DNA from salmon sperm did. Fever and sickness-like behavior in response to missense phosphorothioate oligodeoxynucleotides were accompanied by elevated concentrations of circulating corticosterone and by a marked increase in interleukin 6 mRNA in brain and spleen, indicating that centrally administered oligodeoxynucleotides stimulate the production of pyrogenic inflammatory mediators in both central nervous system and peripheral tissues. Our results indicate that centrally administered oligodeoxynucleotides produce beside their intended sequence-specific effects also transient and sequence-independent effects due to their nucleic acid structure.

Morphine-induced locomotor and neurochemical stimulation is enhanced in transgenic mice with impaired glucocorticoid receptor function.

It has been suggested that the hypothalamic-pituitary-adrenocortical (HPA) system contributes to individual differences in sensitivity towards drug abuse. Therefore, we studied the effects of the prototypic drug morphine in transgenic mice with impaired glucocorticoid receptor function. This mouse model has a profoundly dysfunctional HPA feedback. Since morphine-induced locomotor stimulation is positively correlated with the rewarding effects of morphine, we examined morphine-induced locomotor activity of transgenic mice and control mice (B6C3F1). Because morphine-induced locomotor activity depends on an intact mesolimbic system, dopaminergic (DAergic) neuronal activity was also estimated within the mesolimbic system. Results indicated that the activity after vehicle injection do not differ between these two mouse lines. Compared to vehicle injections, morphine (7.5 and 15 mg/kg; i.p.) dose-dependently increased motor activity for 3 h in control and transgenic mice. However, morphine-induced locomotion was significantly more pronounced in transgenic mice. Further, morphine-induced mesolimbic DAergic activity was enhanced in transgenic animals as compared to control animals. These results parallel endocrine data that show that the plasma ACTH level of transgenic mice reach higher levels compared to those levels observed in control mice after morphine injections. Altogether, this transgenic mouse line shows an enhanced locomotor-stimulant effect to morphine, a response that is reflected by an enhanced DAergic activity within the mesolimbic system and is also associated with increased HPA activity. We submit that the dysregulation of the HPA system in these transgenic mice influences the enhanced vulnerability to drug-seeking behavior.

Anxiety: a potential predictor of vulnerability to the initiation of ethanol self-administration in rats.

Anxiolytic effects of ethanol have been proposed to be important factors in the initiation of ethanol consumption. To examine this hypothesis, drug-naive Wistar rats were tested in the elevated plus-maze to determine their initial level of anxiety. Based on their response, we separated the animals into anxious and non-anxious groups. After that, animals went through an oral ethanol self-administration procedure. Rats that were initially classified as anxious showed a significantly (P < 0.01) higher intake and preference for ethanol during the initiation phase of the voluntary drinking procedure than non-anxious animals. In another experiment, intraperitoneal (IP) injections of ethanol (0.5-1.5 g/kg) produced dose-dependent anxiolytic effects in rats when tested in the elevated plus-maze procedure. Blood ethanol levels following IP injections during the plus-maze test were similar to those reached during the oral ethanol self-administration procedure, which shows that the rats indeed drank sufficient amounts of ethanol to experience its anxiolytic effects. These findings indicate that the basal level of anxiety plays an important role in vulnerability to alcohol drinking.

Strain differences in the rewarding and dopamine-releasing effects of morphine in rats.

Studies examining differential sensitivity to psychoactive drugs in mice suggest that genotype may play a critical role. Furthermore, an involvement of genotype in mediating individual differences in sensitivity to the rewarding effects of several drugs of abuse has also been postulated. The aim of this study was to examine the conditioned rewarding and dopamine-releasing effects of morphine in two outbred rat strains commonly used in addiction research. Additionally, the behavioural and neuroendocrine responses of these strains to the stress of novelty were also examined. Basal locomotor activity was higher in Wistar rats than Sprague-Dawley following exposure to a novel environment. In contrast, elevations in plasma corticosteroid levels following novelty exposure did not differ between the two strains. In a counterbalanced place preference conditioning procedure, increasing doses of morphine (1.0-10.0 mg/kg SC) produced significant conditioned place preferences (CPP) in both Wistar and Sprague-Dawley strains. However, Wistar rats required a significantly larger dose of morphine (5.0 mg/kg) to produce a significant CPP than the Sprague-Dawley rats. In the latter strain, CPP occurred with doses of 3.0 mg/kg and greater. In parallel microdialysis experiments, both strains showed significant dose-related increases in dopamine release in the nucleus accumbens following acute morphine challenge (1.0-10.0 mg/kg SC). Again in Wistar rats, a larger dose of morphine was necessary to produce a significant increase in comparison to Sprague-Dawley rats. These results show that genetically distinct rat strains can show differential sensitivity to opioids, more specifically to drug-seeking responses.

Antisense oligodeoxynucleotides for in vivo targeting of corticotropin-releasing hormone mRNA: comparison of phosphorothioate and 3'-inverted probe performance.

Antisense DNA has been successfully used in vivo to selectively inhibit expression of proteins in the brain. However, stressful side effects after oligodeoxynucleotide (ODN) application have been observed, but not carefully characterized. An attempt was made to establish an animal model of reduced corticotropin-releasing hormone (CRH) activity, using antisense DNA corresponding to the start coding region of rat CRH mRNA with either 3'-3' inverted internucleotidic linkage or with all-phosphorothioate modification. Probes were injected intracerebroventricularly (i.c.v.) twice, 12-hours apart. After phosphorothioate sense ODN injection serum corticosterone levels were significantly elevated compared to vehicle (aCSF) or 3'-3' end inverted sense ODN controls. This increase was also apparent but less pronounced in phosphorothioate antisense treated animals compared with the corresponding sense group. After exposure to ether vapour, both phosphorothioate and inverted antisense ODN injected rats showed a markedly diminished stress induced corticosterone secretion compared to the corresponding sense or vehicle injected rats. These results indicate that a) stress induced corticosterone release is suppressed by i.c.v. CRH antisense treatment, b) phosphorothioate ODNs exert an unspecific, chronic stress-like activation of the HPA-axis and c) this effect is partly inhibited by phosphorothioate antisense directed against CRH mRNA.

Corticotropin-releasing hormone (CRH) antisense oligodeoxynucleotide treatment attenuates social defeat-induced anxiety in rats.

1. The neuropeptide corticotropin-releasing hormone (CRH) is the main mediator of the neuroendocrine and behavioral response to stress. End-capped phosphorothioate antisense and sense oligodeoxynucleotides (ODN) corresponding to the start coding region of rat CRH mRNA were infused intracerebroventricularly (30 micrograms/3 microliters per injection) three times at 12 hr intervals. Six hours after the last injection rats were subjected to social defeat stress and subsequently tested on the elevated plus maze. 2. Socially defeated CRH antisense-treated rats displayed markedly reduced anxiety-related behavior, as they spent significantly more time in the open arms of the plus maze compared to sense ODN- and vehicle-treated animals. 3. In controls, social defeat evoked a stress-induced elevation of CRH mRNA and CRH in the hypothalamus and a significant increase in plasma corticotropin (ACTH) levels. These parameters were attenuated in antisense-injected rats. 4. Our results suggest that CRH antisense treatment is effectively suppressing the neuroendocrine and behavioral effects of social defeat.