Open-field behavior of spontaneously hypertensive and Wistar-Kyoto normotensive rats: effects of reciprocal cross-fostering

Within-Family Environment and Cross-Fostering Stress Affect Behavior and Physiology in Wild Cavies (Cavia aperea)

Stability of personality traits is well-documented for a wide variety of animals. However, previous results also suggest that behavioral phenotypes are plastic during early ontogeny and can be adaptively shaped to the social environment. In cavies (Cavia aperea), it has already been documented that the size at birth relative to siblings (size rank) greatly influences various behavioral and physiological traits that last at least until independence. The aim of the current study was (1) to investigate if behavioral and physiological differences between pups of the same litter persist until after independence and influence development long-lasting, (2) to determine the potential plasticity in response to changes in the early within-family environment by cross-fostering pups either to the same, a lower, or a higher size rank in a foster-family. We measured three behavioral traits (number of interactions with a novel object, distance moved in an open field, struggle docility) and two physiological traits (resting metabolic rate and basal cortisol levels). We predicted that cross-fostering into a litter where pups occupy the same size rank would not change the expression of traits. Cross-fostering to a different size rank should not influence the expression of traits if repeatability measures indicate low plasticity. Alternatively, if the traits are plastic, animals should adjust trait expression to fit with the size rank occupied in the foster litter. Initial differences in struggle docility, distance moved in an open field and in baseline cortisol concentration between pups of different size-ranks did not remain stable beyond independence. In addition, we found remarkable plasticity of the measured traits in response to cross-fostering to the same, a smaller or larger size-rank, suggesting that differences between pups are more the result of social constraints leading to adaptive shaping of individual phenotypes within a family. We also found a significant influence of the cross-fostering procedure itself. Cross-fostered individuals were less bold, grew slower and showed elevated resting metabolic rates. This finding suggests a cautious interpretation of previous cross-fostering studies and stresses the need for proper control groups to reliably separate the effect of cross-fostering per se from those induced by an experimental treatment.

Cross-fostering: Elucidating the effects of gene×environment interactions on phenotypic development

Cross-fostering of litters from soon after birth until weaning is a valuable tool to study the ways in which gene×environment interactions program the development of neural, physiological and behavioral characteristics of mammalian species. In laboratory mice and rats, the primary focus of this review, cross-fostering of litters between mothers of different strains or treatment groups (intraspecific) or between mothers of different species (interspecific) has been conducted over the past 9 decades. Areas of particular interest have included maternal effects on emotionality, social preferences, responses to stressful stimulation, nutrition and growth, blood pressure regulation, and epigenetic effects on brain development and behavior. Results from these areas of research highlight the critical role of the postnatal maternal environment in programming the development of offspring phenotypic characteristics. In addition, experimental paradigms that have included cross-fostering have permitted investigators to tease apart prenatal versus postnatal effects of various treatments on offspring development and behavior.

Nicotine-induced behavioral sensitization in an adult rat model of attention deficit/hyperactivity disorder (ADHD)

Attention deficit hyperactivity disorder (ADHD) is associated with increased risk of tobacco dependence. Nicotine, the main psychoactive component of tobacco, appears to be implicated in ADHD-related tobacco dependence. However, the behavioral responsiveness to nicotine of the prevalent animal model of ADHD, the spontaneously hypertensive rat (SHR), is currently underinvestigated. The present study examined the activational effects of acute and chronic nicotine on the behavior of adult male SHRs, relative to Wistar Kyoto (WKY) controls. Experiment 1 verified baseline strain differences in open-field locomotor activity. Experiment 2 tested for baseline strain differences in rotational behavior using a Rotorat apparatus. Adult SHR and WKY rats were then exposed to a 7-day regimen of 0.6mg/kg/d s.c. nicotine, or saline, prior to each assessment. A separate group of SHRs underwent similar training, but was pre-treated with mecamylamine, a cholinergic antagonist. Nicotine sensitization, context conditioning, and mecamylamine effects were then tested. Baseline strain differences were observed in open-field performance and in the number of full rotations in the Rotorat apparatus, but not in the number of 90° rotations or direction changes. In these latter measures, SHRs displayed weaker nicotine-induced rotational suppression than WKYs. Both strains expressed nicotine-induced sensitization of rotational activity, but evidence for strain differences in sensitization was ambiguous; context conditioning was not observed. Mecamylamine reversed the effects of nicotine on SHR performance. These findings are consistent with the hypothesis that a reduced aversion to nicotine (expressed in rats as robust locomotion) may facilitate smoking among adults with ADHD.

Cross-fostering differentially affects ADHD-related behaviors in spontaneously hypertensive rats

Although both genetic and non-genetic factors are known to contribute to the occurrence of Attention-Deficit Hyperactivity/Disorder (ADHD), little is known about how they impact specific symptoms. We used a cross-fostering approach with an established animal model of ADHD, the Spontaneously Hypertensive Rat strain (SHR), to test the influence of genotype and maternal behavior on ADHD-related behaviors. SHRs and their normo-active genetic relative, Wistar Kyoto rats (WKY), were cross-fostered to an unfamiliar dam of either the same or different strain. Behavioral testing took place when the rats reached adulthood. Locomotor hyperactivity was completely dependent on the strain of the offspring. In contrast, social behavior was primarily determined by the strain of the mother, while attentional orienting behavior was influenced by both the strain of the offspring and the strain of the dam. Anxiety-related behavior was influenced by an interaction between offspring and dam strain.

Maternal separation with early weaning: a rodent model providing novel insights into neglect associated developmental deficits

Child neglect is the most prevalent form of child maltreatment in the United States, and poses a serious public health concern. Children who survive such episodes go on to experience long-lasting psychological and behavioral problems, including higher rates of post-traumatic stress disorder symptoms, depression, alcohol and drug abuse, attention-deficit/hyperactivity disorder, and cognitive deficits. To date, most research into the causes of these life-long problems has focused on well-established targets such as stress responsive systems, including the hypothalamus-pituitary-adrenal axis. Using the maternal separation and early weaning model, we have attempted to provide comprehensive molecular profiling of a model of early-life neglect in an organism amenable to genomic manipulation: the mouse. In this article, we report new findings generated with this model using chromatin immunoprecipitation sequencing, diffuse tensor magnetic resonance imaging, and behavioral analyses. We also review the validity of the maternal separation and early weaning model, which reflects behavioral deficits observed in neglected humans including hyperactivity, anxiety, and attentional deficits. Finally, we summarize the molecular characterization of these animals, including RNA profiling and label-free proteomics, which highlight protein translation and myelination as novel pathways of interest.

Overview of animal models of attention deficit hyperactivity disorder (ADHD)

Attention-deficit/hyperactivity disorder (ADHD) is a heterogeneous, highly heritable, behavioral disorder that affects ∼5% to 10% of children worldwide. Although animal models cannot truly reflect human psychiatric disorders, they can provide insight into the disorder that cannot be obtained from human studies because of the limitations of available techniques. Genetic models include the spontaneously hypertensive rat (SHR), the Naples High Excitability (NHE) rat, poor performers in the 5-choice serial reaction time (5-CSRT) task, the dopamine transporter (DAT) knock-out mouse, the SNAP-25 deficient mutant coloboma mouse, mice expressing a human mutant thyroid hormone receptor, a nicotinic receptor knock-out mouse, and a tachykinin-1 (NK1) receptor knock-out mouse. Chemically induced models of ADHD include prenatal or early postnatal exposure to ethanol, nicotine, polychlorinated biphenyls, or 6-hydroxydopamine (6-OHDA). Environmentally induced models have also been suggested; these include neonatal anoxia and rat pups reared in social isolation. The major insight provided by animal models was the consistency of findings regarding the involvement of dopaminergic, noradrenergic, and sometimes also serotonergic systems, as well as more fundamental defects in neurotransmission.

Swim stress increases hippocampal Zif268 expression in the spontaneously hypertensive rat

The spontaneously hypertensive rat (SHR), which is used as an animal model of ADHD, displays numerous behavioural differences on learning and memory tasks. This study characterises differences in neural Zif268 expression in male SHR, Wistar Kyoto (WKY) and Sprague-Dawley (SD) rats after a 10-min forced swim. Swim stress increased Zif268 expression in the hippocampus of SHR only. In addition, SHR had increased expression in the prefrontal cortex, dorsal striatum and decreased expression in the nucleus accumbens shell in comparison to WKY and SD; and increased expression in the amygdala compared to SD. These findings: (i) support previous research indicating that SHR have altered neurobiological response to stressors, (ii) extends the characterisation of multiple memory systems in SHR to include differences in Zif268 expression in brain regions underlying their altered behaviour and (iii) supports previous findings that SHR may have a specific deficit within the shell of the nucleus accumbens.

Increased glutamate-stimulated release of dopamine in substantia nigra of a rat model for attention-deficit/hyperactivity disorder--lack of effect of methylphenidate

Attention-deficit/hyperactivity disorder (ADHD) is a behavioural disorder that has been associated with dysfunction of the dopaminergic system. Abnormal dopamine function could be the result of a primary defect in dopamine neurons (neuronal firing, dopamine transporter, synthesis, receptor function) or an indirect result of impaired glutamate and/or noradrenergic regulation of dopamine neurons. There is considerable evidence to suggest that dopamine release is impaired at mesolimbic and nigrostriatal dopaminergic terminals. However, it is not known whether dysregulation occurs at the level of the cell bodies in the ventral tegmental area of the midbrain (VTA) and substantia nigra (SN). An in vitro superfusion technique was used to measure dopamine release in a widely used model of ADHD, the spontaneously hypertensive rat (SHR), and its normotensive Wistar-Kyoto (WKY) control. At approximately 30 days of age, rats were analysed for behavioural differences in the open field in response to acute treatment with methylphenidate (0.5 to 2 mg/kg in condensed milk, oral self-administration). In addition, rats were treated chronically with methylphenidate (2 mg/kg, oral self-administration, twice daily for 14 days from postnatal day 21 to 34) before the VTA and the SN were analysed for glutamate-stimulated and depolarization-evoked release of dopamine in these areas. In support of its use as an animal model for ADHD, SHR were more active in the open field and displayed less anxiety-like behaviour than WKY. Neither strain showed any effect of treatment with methylphenidate. A significant difference was observed in glutamate-stimulated release of dopamine in the SN of SHR and WKY, with SHR releasing more dopamine, consistent with the hypothesis of altered glutamate regulation of dopamine neurons in SHR.

Cross-fostering does not alter the neurochemistry or behavior of spontaneously hypertensive rats

Background

Attention-deficit/hyperactivity disorder (ADHD) is a highly heritable developmental disorder resulting from complex gene-gene and gene-environment interactions. The most widely used animal model, the spontaneously hypertensive rat (SHR), displays the major symptoms of ADHD (deficits in attention, impulsivity and hyperactivity) and has a disturbance in the noradrenergic system when compared to control Wistar-Kyoto rats (WKY). The aim of the present study was to determine whether the ADHD-like characteristics of SHR were purely genetically determined or dependent on the gene-environment interaction provided by the SHR dam.

Methods

SHR/NCrl (Charles River, USA), WKY/NCrl (Charles River, USA) and Sprague Dawley rats (SD/Hsd, Harlan, UK) were bred at the University of Cape Town. Rat pups were cross-fostered on postnatal day 2 (PND 2). Control rats remained with their birth mothers to serve as a reference for their particular strain phenotype. Behavior in the open-field and the elevated-plus maze was assessed between PND 29 and 33. Two days later, rats were decapitated and glutamate-stimulated release of [³H]norepinephrine was determined in prefrontal cortex and hippocampal slices.

Results

There was no significant effect of "strain of dam" but there was a significant effect of "pup strain" on all parameters investigated. SHR pups travelled a greater distance in the open field, spent a longer period of time in the inner zone and entered the inner zone of the open-field more frequently than SD or WKY. SD were more active than WKY in the open-field. WKY took longer to enter the inner zone than SHR or SD. In the elevated-plus maze, SHR spent less time in the closed arms, more time in the open arms and entered the open arms more frequently than SD or WKY. There was no difference between WKY and SD behavior in the elevated-plus maze. SHR released significantly more [³H]norepinephrine in response to glutamate than SD or WKY in both hippocampus and prefrontal cortex while SD prefrontal cortex released more [³H]norepinephrine than WKY. SHR were resilient, cross-fostering did not reduce their ADHD-like behavior or change their neurochemistry. Cross-fostering of SD pups onto SHR or WKY dams increased their exploratory behavior without altering their anxiety-like behavior.

Conclusion

The ADHD-like behavior of SHR and their neurochemistry is genetically determined and not dependent on nurturing by SHR dams. The similarity between WKY and SD supports the continued use of WKY as a control for SHR and suggests that SD may be a useful additional reference strain for SHR. The fact that SD behaved similarly to WKY in the elevated-plus maze argues against the use of WKY as a model for anxiety-like disorders.

Methylphenidate does not increase ethanol consumption in a rat model for attention-deficit hyperactivity disorder-the spontaneously hypertensive rat

Attention-deficit hyperactivity disorder (ADHD) is a behavioural disorder that has been suggested to result from disturbances in the dopaminergic system of the brain. The most effective drugs used to treat ADHD are the psychostimulants, methylphenidate and amphetamine. They block dopamine transporters and increase dopamine release, thereby increasing the extracellular concentration of dopamine and altering dopamine signaling. Drugs of abuse, such as cocaine, also block dopamine transporters, which raises the concern that treatment of children with ADHD with psychostimulants might increase their susceptibility to drug addiction. The present study was aimed at investigating whether treatment with methylphenidate at an early stage of development increased preference for ethanol in a widely used rat model for ADHD, the spontaneously hypertensive rat (SHR). SHR display the three major characteristics of ADHD (hyperactivity, impulsivity, poor sustained attention) compared to their progenitor Wistar-Kyoto (WKY) rat strain. Ethanol increased locomotor activity of SHR slightly more than WKY when injected intraperitoneally (0.6 g/kg). SHR also spent more time in the inner zone of the open field than WKY, consistent with SHR being less anxious than WKY. When given free access to ethanol-containing solutions of increasing concentration, SHR consumed less ethanol than WKY. Treatment with methylphenidate at an early age (P21 to P35) did not alter ethanol consumption in adult SHR or WKY, suggesting that it does not increase susceptibility to ethanol addiction in these rats. In vitro superfusion studies further demonstrated that preadolescent methylphenidate treatment did not have long-term effects on dopamine release in adult SHR and WKY striatum. A major finding of this study is the fact that methylphenidate treatment did not increase alcohol use in SHR.

Role of anxiety levels in memory performance of spontaneously hypertensive rats

Spontaneously hypertensive rats (SHR) show behavioural differences when compared to their strain-matched controls. These differences include decreased anxiety-like behaviour in SHR, while both improved performance and behavioural deficits have been reported in learning/memory studies. Considering that alterations in anxiety levels during the training session can modify retention performance in animal models of memory, the aim of the present study was to investigate the role of anxiety levels in the performance of SHR rats in the plus-maze discriminative avoidance task (PM-DAT), in which memory and anxiety are evaluated simultaneously. Adult (5-month-old) and young (45-day-old) SHR and normotensive Wistar rats (NWR) were treated with chlordiazepoxide (CDZ) or saline. Thirty minutes later, rats were submitted to the PM-DAT training session. After 24 h, the test session was performed. The results showed that: (1) adult SHR showed lower anxiety levels compared to adult NWR; (2) adult SHR and NWR, as well as young NWR, showed significant retention of the task, while young SHR showed impaired performance; (3) 5.0 mg/kg CDZ decreased anxiety levels in adult NWR and young and adult SHR; (4) 5.0 mg/kg CDZ impaired retention in adult SHR and NWR and increased retention in young SHR. Our data suggest an important role of anxiety levels in the performance of SHR in a plus-maze discriminative avoidance task.

Brain sites of movement disorder: genetic and environmental agents in neurodevelopmental perturbations

In assessing and assimilating the neurodevelopmental basis of the so-called movement disorders it is probably useful to establish certain concepts that will modulate both the variation and selection of affliction, mechanisms-processes and diversity of disease states. Both genetic, developmental and degenerative aberrations are to be encompassed within such an approach, as well as all deviations from the necessary components of behaviour that are generally understood to incorporate "normal" functioning. In the present treatise, both conditions of hyperactivity/hypoactivity, akinesia and bradykinesia together with a constellation of other symptoms and syndromes are considered in conjunction with the neuropharmacological and brain morphological alterations that may or may not accompany them, e.g. following neonatal denervation. As a case in point, the neuroanatomical and neurochemical points of interaction in Attention Deficit and Hyperactivity disorder (ADHD) are examined with reference to both the perinatal metallic and organic environment and genetic backgrounds. The role of apoptosis, as opposed to necrosis, in cell death during brain development necessitates careful considerations of the current explosion of evidence for brain nerve growth factors, neurotrophins and cytokines, and the processes regulating their appearance, release and fate. Some of these processes may possess putative inherited characteristics, like alpha-synuclein, others may to greater or lesser extents be endogenous or semi-endogenous (in food), like the tetrahydroisoquinolines, others exogenous until inhaled or injested through environmental accident, like heavy metals, e.g. mercury. Another central concept of neurodevelopment is cellular plasticity, thereby underlining the essential involvement of glutamate systems and N-methyl-D-aspartate receptor configurations. Finally, an essential assimilation of brain development in disease must delineate the relative merits of inherited as opposed to environmental risks not only for the commonly-regarded movement disorders, like Parkinson's disease, Huntington's disease and epilepsy, but also for afflictions bearing strong elements of psychosocial tragedy, like ADHD, autism and Savantism.

Behavioural and pharmacological relevance of stroke-prone spontaneously hypertensive rats as an animal model of a developmental disorder

The present study evaluates juvenile stroke-prone spontaneously hypertensive rats (SHRSP) as an animal model of a developmental disorder, which is diagnosed according to hyperactivity-impulsivity and/or inattention. To characterize behavioural alterations, we studied motor activity, as well as emotional and cognitive behaviours in juvenile SHRSP, with and without methylphenidate, a psychostimulant. Ambulatory and rearing activities in the open-field environment were significantly higher in SHRSP than in Wistar-Kyoto rats (WKY). In the elevated plus maze task, the entries into open arms, as an index of impulsivity, were significantly increased in SHRSP. In the Y-maze task, spontaneous alternation behaviour, as an index of attention, was significantly lowered in the male SHRSP, but not in the female SHRSP, indicating that spontaneous alternation deficit is gender specific. Methylphenidate (0.01-1 mg/kg, i.p.) significantly attenuated locomotor hyperactivity at low doses and dose-dependently improved the spontaneous alternation deficit in SHRSP. Our findings reveal that juvenile SHRSP manifest problematic behaviours resembling a developmental disorder, attention-deficit/hyperactivity disorder (ADHD), namely hyperactivity-impulsivity and/or inattention. Methylphenidate alleviated the behavioural symptoms of hyperactivity and inattention. We propose that juvenile SHRSP are an appropriate animal model of a developmental disorder resembling ADHD, from behavioural and pharmacological perspectives.

Effects of change of maternal environment during early postnatal development on behaviour in cataleptic rats

Pinch-induced catalepsy was compared at an age of 2 weeks and at weaning in cataleptic GC and control Wistar rats reared by their biological mothers or subjected to reciprocal in-or cross-fostering. Besides, some open-field parameters were studied in the same groups of rats at an age of 2 months. Significant interstrain differences in all the behavioural parameters studied were found. Reciprocal cross-fostering tended to diminish interstrain differences in most parameters. It brought about a decrease of duration of pinch-induced catalepsy at 2 weeks and at weaning in GC rats, and an increase of duration of catalepsy at weaning in Wistar females. Besides, cross-fostering decreased the duration of freezing in the open-field test in GC rats at 2 months.

Lesion of the habenular efferent pathway produces anxiety and locomotor hyperactivity in rats: a comparison of the effects of neonatal and adult lesions

Recent studies have implicated the habenula in modulating states of arousal and chronic responses to stress. We examined whether lesion of the habenula efferent pathway, the fasciculus retroflexus (FR), at either 3 (P3) or 70 (P70) days of age affects stress-related anxiety (elevated plus-maze test) and activity levels (open-field test) in rats tested as adults. Both P3- and P70-lesioned rats showed chronically elevated plasma levels of corticosterone. Rats receiving FR lesions as neonates (P3) exhibited greater open arm avoidance on the elevated plus-maze than controls 2 months postoperatively, suggesting a heightened state of anxiety. In contrast, P70-lesioned rats behaved similarly to controls on the plus-maze, but showed increased locomotion and increased grooming in the open field, effects not observed in P3-lesioned rats. When an additional stressful condition was imposed (5 days of social isolation plus 24 h food deprivation) before testing, both FR-lesion groups showed an attenuation of the normal behavioral responses (decreased open-arm entries/time in open arms, increased freezing). The effects of FR lesions on activity and behavioral indices of anxiety may be due to disruption of lateral habenular projections to dopaminergic neurons in the ventral tegmentum and/or projections to regions containing high concentrations of benzodiazepine receptors, the median and dorsal raphe and dorsal periaqueductal gray. Behavioral differences observed as a function of lesion age suggest differential capabilities of P3- and P70-lesioned rats to utilize compensatory mechanisms to correct FR lesion-induced deficits.

Behavioral variability in SHR and WKY rats as a function of rearing environment and reinforcement contingency

The spontaneously hypertensive rat (SHR) may model aspects of human attention deficit hyperactivity disorder (ADHD). For example, just as responses by children with ADHD tend to be variable, so too SHRs often respond more variably than do Wistar-Kyoto (WKY) control rats. The present study asked whether behavioral variability in the SHR strain is influenced by rearing environment, a question related to hypotheses concerning the etiology of human ADHD. Some rats from each strain were reared in an enriched environment (housed socially), and others were reared in an impoverished environment (housed in isolation). Four groups--enriched SHR, impoverished SHR, enriched WKY, and impoverished WKY--were studied under two reinforcement contingencies, one in which reinforcement was independent of response variability and the other in which reinforcement depended upon high variability. The main finding was that rearing environment did not influence response variability (enriched and impoverished subjects responded similarly throughout). However, rearing environment affected body weight (enriched subjects weighted more than impoverished subjects) and response rate (impoverished subjects generally responded faster than enriched subjects). In addition, SHRs tended to respond variably throughout the experiment, whereas WKYs were more sensitive to the variability contingencies. Thus, behavioral variability was affected by genetic strain and by reinforcement contingency but not by the environment in which the subjects were reared.

Deficits of spatial learning and working memory in spontaneously hypertensive rats

It is possible that behavioral dysfunction, including cognitive, perceptual and psychomotor impairments in hypertensive subjects, can be the result of the high blood pressure. The aim of this study was to evaluate the performance of the spontaneously hypertensive rats (SHR) in the acquisition and execution of tasks in an 8-arm radial maze. Male Wistar normotensive rats (CON, n = 11) and SHR (n = 12), 3 months old, were first submitted to a series of training sessions to enter each of the 8 arms once in a given session (task acquisition), and errors (revisiting an arm in the same session) were computed. Errors before and after two delay intervals (5 s and 1 h, introduced between the fourth and fifth arm choice) were measured. These delayed tests allowed us to evaluate the working memory in different terms. It was observed that the SHR group made slightly more errors during the acquisition sessions and in the execution of the post-delay of 5-s interval tests, and significantly in the execution of the post-delay of 1-h interval tests compared to the CON. These results show that the SHR has a deficiency in the performance of the radial maze, suggestive of impairment of learning and working memory, mainly for a long-term memory, corroborating the hypothesis about the possible behavioral consequences of hypertension.

Different effects of amphetamine on reinforced variations versus repetitions in spontaneously hypertensive rats (SHR)

The spontaneously hypertensive rat (SHR) may serve as an animal model of human attention deficit hyperactivity disorder (ADHD). We compared performances of SHRs and Wistar-Kyoto normotensive controls rats (WKY) in two experiments. When rewarded for varying sequences of responses across two manipulanda, the SHRs were more likely to vary than the WKYs. On the other hand, when rewarded for repetitions of a small number of sequences, the WKYs were more likely to learn to repeat. Both of these results confirm previous findings. Injecting 0.75 mg/kg d-amphetamine facilitated learning by SHRs to repeat the required sequences, with amphetamine-injected SHRs learning as rapidly as saline-injected, control WKYs. On the other hand, amphetamine tended to increase variability in both strains when high levels of variations were required for reward, and to decrease it in both strains when low levels of variability were required. Thus, amphetamine may have different effects on reinforced repetitions vs. reinforced variations.

Open field, learned helplessness, conditioned defensive burying, and forced-swim tests in WKY rats

Wistar Kyoto (WKY) and Wistar rats were observed in four tests; the open field test (OFT), the conditioned defensive burying (DB) test, and two tests which are considered animal models of depressive behavior, namely the Porsolt forced-swim test (FST) and the shuttlebox escape responding following exposure to inescapable shock, that is, learned helplessness (LH). The four tests were administered according to a semirandomized schedule to control for sequence effects. All rats were later exposed to water-restraint stress and stomachs were subsequently inspected for ulcers. Stress ulcer severity was greater in WKY rats. WKY rats, as compared to Wistar rats, were hypoactive in the OFT, did not engage in DB, rapidly acquired the LH task, and were significantly more immobile in the FST. The FST was positively correlated with behaviors in the LH procedure and, to a lesser degree, with DB, but these relationships were observed only with WKY rats, not Wistar rats. The data suggested that the use of WKY rats represented a more sensitive procedure for detecting possible relationships between putative animal models of depressive behavior.

Spontaneously hypertensive rats (SHR) readily learn to vary but not repeat instrumental responses

When spontaneously hypertensive rats (SHR) and Wystar-Kyoto normotensive control rats (WKY) were rewarded in a 12-arm radial maze (Experiment 1), the SHRs varied their arm choices more, making fewer repetition errors than the WKYs. Similarly when rewards depended on variable sequences of responses on two levers in an operant chamber (Experiment 2), SHRs' sequences were more variable than those of WKYs. A requirement for response variability was then combined with a requirement to repeat selected responses in the radial maze (Experiment 3) and operant chamber (Experiment 4). WKYs learned to repeat more readily than the SHRs, whereas SHRs varied more readily. Thus, when subjects had to repeat responses, SHRs were at a disadvantage, but when variability was adaptive, SHRs excelled. The high variability of SHRs, together with their difficulty in learning to repeat, may have parallels in children diagnosed with attention deficit disorder with hyperactivity (ADDH).

A fostering study of the effects of prenatal cocaine exposure: I. Maternal behaviors

The effect of rearing condition and prenatal exposure to cocaine on maternal behaviors was examined. Sprague-Dawley dams were given SC injections of 40 mg/kg/3cc cocaine HCl (C40) or saline (LC) daily from gestational days 8-20. Maternal behavior was assessed in treated dams rearing their biological pups (LC/LC; C40/C40), treated dams rearing untreated pups (LC/FOS; C40/FOS), and foster dams rearing treated pups (FOS/LC; FOS/C40). All dams were monitored for home cage behavior (time eating, drinking, and with pups) for 2 h during both the light and dark cycle on postnatal day 4 (P4), pup retrieval on P5-P9, and maternal aggression to a female intruder (latency to the first attack, number of attacks, boxing, pins, intruder time spent submissive and motionless) on P10. No differences were observed in nest behavior or in tests of pup retrieval among the six groups. Dams rearing their biological litter (LC/LC and C40/C40) were significantly quicker to initiate the first attack when compared to all other groups. This increased aggression was maintained throughout the test session in the C40/C40 dams who made significantly more intruder attacks than all other groups, with the intruder spending significantly more time in a submissive posture (lying on back). In contrast, LC/LC dams did not exhibit an increased number of attacks during the test, apparently responding to an increased freezing in their intruders with a reduction in aggressive behavior. Taken together these findings suggest that prior cocaine exposure results in alterations in maternal aggression that is evident when these dams rear their own pups.