Long-term attentional deficit in nonhandled males: possible involvement of the dopaminergic system

Latent inhibition (LI) is a behavioral paradigm in which nonreinforced pre-exposure to a stimulus retards subsequent conditioning to that stimulus. The development of LI is considered to reflect learning not to attend to, or ignore, irrelevant stimuli. In our previous studies investigating the effects of early handling on LI, we have shown that normal LI was obtained in handled males and females, as well as in nonhandled females. In contrast, nonhandled males failed to show LI. This finding pointed to a long-term attentional deficit in nonhandled males. Since there is evidence that the development of LI is mediated by the dopaminergic system, the present experiments tested the possibility that the attentional deficit of nonhandled males may be related to a dopaminergic dysfunction. Experiment 1 tested whether the administration of haloperidol, which was shown to enhance LI in normal animals, would reinstate the LI effect in nonhandled males. Infantile handled (Days 1–22) and nonhandled male and female rats were tested in maturity in the LI paradigm, using a conditioned emotional response procedure. Experiment 2 tested the locomotor response of handled and nonhandled males to 0.3, 1 and 2.5 mg/kg d-amphetamine. Experiment 1 showed that handled males, handled females and nonhandled females showed a normal LI effect, whereas nonhandled males failed to develop LI. Haloperidol enhanced LI in all the groups, but this effect was most dramatic in nonhandled males, in which the drug reinstated LI. Experiment 2 showed that nonhandled males exhibited a reduced locomotor response to d-amphetamine.     

The effects of the new antipsychotic, sertindole, on latent inhibition in rats

Latent inhibition (LI) is a measure of retarded conditioning to a previously presented non-reinforced stimulus, that is impaired in schizophrenic patients and in rats treated with amphetamine. Neuroleptic drugs are known to produce two effects in this paradigm: to antagonize amphetamine-induced disruption of LI, and to facilitate the development of LI when administered on their own. The present experiments tested the effects on LI of the new neuroleptic, sertindole. The experiments used a conditioned emotional response procedure in rats licking for water, consisting of three stages: pre-exposure, in which the to-be-conditioned stimulus (a tone) was repeatedly presented without being followed by reinforcement; conditioning, in which the pre-exposed stimulus was paired with reinforcement (a foot shock); and test, in which LI was indexed by degree of suppression of licking during tone presentation. In Experiment 1 the effects of 0.31, 1.3 and 5.0mg/kg sertindole were assessed following pre-exposure to 40 non-reinforced tones. Experiment 2 tested the effects of 5mg/kg on LI following pre-exposure to 10 non-reinforced tones. Experiment 3 investigated antagonism of amphetamine-induced disruption of LI by 5.0mg/kg sertindole. The results demonstrated that sertindole (5.0mg/kg) possesses a neuroleptic-like profile in the LI model: it facilitates the development of LI and antagonizes amphetamine-induced disruption of LI.     

Nicotine blocks latent inhibition in rats: evidence for a critical role of increased functional activity of dopamine in the mesolimbic system at conditioning rather than pre-exposure

Latent inhibition (LI) is a cognitive process whereby repeated exposure of a stimulus without consequence impedes the formation of subsequent associations with that stimulus. A number of studies in the rat have reported that LI is impaired by moderate systemic doses of amphetamine, an effect believed to be mediated via dopamine (DA) release in the nucleus accumbens. We and others have reported that nicotine has a selective effect in releasing DA in the accumbens rather than the caudate nucleus. We have therefore examined the ability of nicotine to disrupt LI, using a conditioned emotional response paradigm. Pre-exposure of a tone stimulus impaired subsequent conditioning between that stimulus and mild footshock, as indexed by suppression of licking by the tone subsequently presented alone. This LI effect was prevented, by an effect confined to the pre-exposed group, by doses of 0.4 or 0.6 mg/kg nicotine SC, which are accumbens selective, given before pre-exposure and before conditioning. The effect of nicotine in disrupting LI was prevented by prior administration of haloperidol at a dose (0.5 mg/kg) reported to reverse the disruptive effect of amphetamine on LI. Although the amphetamine effect requires two administrations, the effect of two administrations of nicotine was reproduced by a single dose of nicotine given before conditioning, but not by a single dose before pre-exposure. The results are discussed in relation to studies in human control and schizophrenic subjects, which suggest that increased DA activity in humans is also associated with impaired LI. The results indicate that nicotine does indeed increase functional DA activity in the rat accumbens; the consequent disruption of LI critically depends upon an action at the time of conditioning, and is independent of processes which occur during pre-exposure. In more general terms, this indicates the potential of drug experiments to complement behavioural studies on the mechanism of latent inhibition.     

Abolition of the expression but not the acquisition of latent inhibition by chronic amphetamine in rats

The animal amphetamine model of schizophrenia has been based primarily on stereotyped behavior. The present study sought to demonstrate an amphetamine-induced deficit in attentional processes. To this end, the effects of acute and chronic (14 days) 1.5 mg/kg dl-amphetamine administration on the ability of rats to ignore irrelevant stimuli were examined using the paradigm of latent inhibition (LI) in a conditioned emotional response (CER) procedure. The procedure consisted of three stages: pre-exposure, in which the to-be-conditoned stimulus, tone, was presented without being followed by reinforcement; acquisition, in which the pre-exposed tone was paired with shock; and test, in which LI was indexed by animals' suppression of licking during tone presentation. Experiment 1 showed that chronic but not acute treatment abolished LI. Experiment 2 showed that animals receiving chronic amphetamine pretreatment but pre-exposed and conditioned without the drug, exhibited normal LI. In Experiment 3, animals which received chronic amphetamine pretreatment and were pre-exposed under the drug but conditioned without it, also showed normal LI. The implications of these results for the animal amphetamine model of schizophrenia are discussed.     

Disruption and potentiation of latent inhibition by risperidone: the latent inhibition model of atypical antipsychotic action.

Latent inhibition (LI), that is, retarded conditioning to a stimulus following its nonreinforced pre-exposure, is impaired in some subsets of schizophrenia patients and in amphetamine-treated rats. Potentiation of LI by antipsychotic drugs (APDs) given in conditioning, under conditions that do not lead to LI in controls, is a well-established index of antipsychotic activity. Recently, we have shown that the atypical APD, clozapine, in addition disrupts LI if administered in pre-exposure, under conditions that lead to LI in controls. This study demonstrates the same behavioral profile for the atypical APD risperidone. LI was measured in a thirst-motivated conditioned emotional response procedure by comparing suppression of drinking in response to a tone previously paired with a foot shock in rats that received nonreinforced exposure to the tone prior to conditioning (pre-exposed (PE)) and rats for whom the tone was novel (non-pre-exposed (NPE)). We show that under conditions that did not yield LI in vehicle controls (40 pre-exposures and five conditioning trials), risperidone (0.25, 0.5, and 1.2 mg/kg) led to LI when administered in conditioning. Under conditions that led to LI in vehicle controls (40 pre-exposures and two conditioning trials), risperidone (0.25, 0.5, and 2.5 mg/kg) abolished LI when administered in pre-exposure; the latter effect was not evident with haloperidol. In addition, the effects of risperidone administered in both the pre-exposure and conditioning stages were dose-dependent so that the pre-exposure-based action was manifested at lower but not at higher doses. It is concluded that atypical APDs exert in the LI model a dual pattern of effects, which enables detection of their 'typical' action (conditioning-based LI potentiation) as well as a dissociation from typical APDs by their 'atypical' action (pre-exposure-based LI disruption). It is suggested that the former and latter effects are subserved by D2 and 5HT2A antagonism, respectively.     

Effects of dopamine receptor antagonism with haloperidol on nurturing behavior in the biparental prairie vole

Dopamine (DA) receptor activity in lactating rats is critical for retrieval and licking of pups, whereas its inactivity facilitates quiescent nursing. The role of DA in the maternal behavior of other species and its role in paternal behavior are unknown. This experiment examined the effects of the DA antagonist haloperidol (HAL) on parental behavior in the biparental prairie vole (Microtus ochrogaster). Three days after birth of pups, parental behavior of male and female voles was observed for 30 min beginning 1 h after intraperitoneal injection of 0.1, 0.5, or 2.5 mg/kg of HAL. Controls received the propylene glycol vehicle. Control males were slower to contact pups, licked them more, and quiescently huddled/nursed less than control females. Even at the lowest dose of HAL that had no effect on general activity, pup licking was decreased in both sexes and the latency to contact pups increased in males. The latency to contact pups was most increased in females by the highest HAL dose. Retrieval of pups was not often displayed by any group. HAL dose-dependently decreased the latency and increased the duration of huddling/nursing in both sexes, but did not affect litter weight gains. These data indicate some subtle species differences in the dopaminergic regulation of parenting, as well as sex differences in the sensitivity of some vole parental behaviors to HAL.     

Frequency of maternal licking and grooming correlates negatively with vulnerability to cocaine and alcohol use in rats

Because licking and grooming behavior of dams with pups can influence some behaviors of pups when they are adults, we tested if licking and grooming scores in a maternal separation protocol correlated with cocaine or ethanol self-administration in the pups as adults. The protocol produced litters that were separated from dams for 0 (MS0), 15 (MS15) or 180 (MS180) min, and a nonhandled (NH) group as well. Self-administration of both drugs as shown in earlier studies was lowest in the MS15 group, highest in the NH group and intermediate in the other groups. Licking and grooming scores correlated negatively with drug intake and suggests that maternal care of pups can influence drug use in pups when they are adults.     

Haloperidol potentiation of latent inhibition in rats: evidence for a critical role at conditioning rather than pre-exposure

Latent inhibition (LI) reflects a cognitive process whereby repeated pre-exposure of a to-be-conditioned stimulus impairs subsequent conditioning. Since it is believed to reflect the ability of an organism to screen out irrelevant stimuli, disrupted LI has been suggested as a model for a cognitive deficit in schizophrenia. Animal studies have previously shown that indirect dopamine (DA) agonists can disrupt LI, an effect which is reversed by neuroleptics. Conversely, neuroleptics given alone potentiate LI. In this study, using pre-exposure to a tone stimulus which is subsequently paired with mild footshock, we have demonstrated that haloperidol given before conditioning only is equally as effective as haloperidol given twice, before pre-exposure and conditioning, in potentiating LI after 10 pre-exposures. This supports our earlier results with nicotine, pointing to conditioning as the critical time for the action of dopaminergic manipulations on LI. The implications for the use of potentiated LI as a screening test for neuroleptic action are discussed.     

Latent inhibition is not affected by acute or chronic administration of 6 mg/kg dl-amphetamine

Latent inhibition (LI) is a behavioral paradigm in which animals learn to ignore a repeatedly presented stimulus not followed by meaningful consequences. We previously reported that LI was disrupted following the administration of 1.5 mg/kg dl-amphetamine. The present experiments investigated the effects of 6 mg/kg dl-amphetamine administration on LI in a conditioned emotional response (CER) procedure consisting of three stages: pre-exposure, in which the to-be-conditioned stimulus, tone, was repeatedly presented without reinforcement; conditioning, in which the pre-exposed stimulus was paired with shock; and test, where LI was indexed by animals' suppression of licking during tone presentation. The three stages were conducted 24 h apart. In Experiment 1, the drug was administered in a 2×2 design, i.e. drug-no drug in pre-exposure and drug-no drug in conditioning. LI was obtained in all conditions. In Experiment 2, animals were given either 5 days of 6 mg/kg amphetamine pretreatment and amphetamine in pre-exposure and conditioning or 7 days of saline. LI was not obtained under amphetamine, but this outcome reflected a state-dependency effect. In Experiment 3, animals received either 5 days of amphetamine pretreatment and amphetamine in pre-exposure, conditioning and test or 8 days of saline. LI was obtained in both the placebo and amphetamine conditions. Experiments 4a and 4b compared the effects of two drug doses, 1.5 (4a) and 6 mg/kg (4b), administered in pre-exposure and conditioning. LI was abolished with the 1.5 mg/kg dose but not with the 6 mg/kg dose.     

Facilitation of latent inhibition by haloperidol in rats

Latent inhibition (LI) is a behavioral paradigm in which prior exposure to a stimulus not followed by reinforcement retards subsequent conditioning to that stimulus when it is paired with reinforcement. Two experiments investigated the effects of 0.1 mg/kg haloperidol administration on LI as a function of number of CS pre-exposures. The investigation was carried out using a conditioned emotional response (CER) procedure consisting of three stages: pre-exposure, in which the to-be-conditioned stimulus, tone, was repeatedly presented without reinforcement; conditioning, in which the pre-exposed stimulus was paired with shock; and test, where LI was indexed by animals' suppression of licking during tone presentation. The three stages were conducted 24 h apart. In Experiment 1, 40 CS pre-exposures were given. LI was obtained in both the placebo and haloperidol conditions, but the effect was much more pronounced under the drug. Experiment 2 used ten CS pre-exposures. LI was not obtained in the placebo animals but was clearly evident in animals injected with haloperidol. The implications of these findings for the effects of neuroleptics on learning are discussed.     

Disruption of the US pre-exposure effect and latent inhibition in two-way active avoidance by systemic amphetamine in C57BL/6 mice

RATIONALE: Pre-exposure to either one of the two to-be-associated stimuli alone is known to reduce the efficiency of the learning of their association when they are subsequently paired explicitly. In classical conditioning, pre-exposure to the conditioned stimulus (CS) gives rise to latent inhibition (LI); and pre-exposure to the unconditioned stimulus (US) results in the US pre-exposure effect (USPEE). Considerable evidence supports an important role of central dopamine in the regulation and modulation of LI; it has been suggested that the USPEE may be similarly controlled by dopamine, but this parallelism has only been directly demonstrated in the conditioned taste aversion paradigm. OBJECTIVE: The present study tested this hypothesis by comparing the efficacy of systemic amphetamine treatment to affect the expression of LI and the USPEE in a two-way active avoidance paradigm. METHODS: C57BL/6 male mice were tested in active avoidance using a tone CS and a foot-shock US. Twenty-four hours before, they were pre-exposed to 100 presentations of the CS or the US, or to the test apparatus only. Amphetamine (2.5 mg/kg) or saline was administered before stimulus pre-exposure and conditioned avoidance test, in which the mice learned to avoid the shock by shuttling in response to the tone. RESULTS: Amphetamine disrupted both stimulus pre-exposure effects, thus, lending further support to the hypothesis that the USPEE is similar to LI in its sensitivity to dopamine receptor agonist. Hence, the USPEE paradigm may represent a valuable addition to the study of dopamine-sensitive processes of selective learning currently implicated in LI and Kamin blocking.     

Neonatal isolation alters stress hormone and mesolimbic dopamine release in juvenile rats

Rat pups were individually isolated from the mother and nest for 1 h/day from postnatal days (PND) 2 to 9 and tested as juveniles (PND 26-30) compared to nonhandled (NH) controls. In response to 1 h of restraint stress, NH rats increased locomotor activity and dopamine (DA) levels, but neonatally isolated (ISO) rats did not. Both groups had increased plasma corticosterone levels in response to restraint, but corticosterone levels were higher in ISO than in NH. Brain allopregnanolone (3alpha,5alpha-THP) levels also increased in response to stress, but NH and ISO did not differ. Sex of the rats was not a factor for any of the measures except plasma corticosterone levels, where females had higher levels than males. These data indicate that the effects of neonatal isolation persist postweaning and that the effects are most evident in response to stress as opposed to under baseline conditions.     

The "two-headed" latent inhibition model of schizophrenia: modeling positive and negative symptoms and their treatment

Rationale Latent inhibition (LI), namely, poorer performance on a learning task involving a previously pre-exposed non-reinforced stimulus, is disrupted in the rat by the dopamine (DA) releaser amphetamine which produces and exacerbates psychotic (positive) symptoms, and this is reversed by treatment with typical and atypical antipsychotic drugs (APDs) which on their own potentiate LI. These phenomena are paralleled by disrupted LI in normal amphetamine-treated humans, in high schizotypal humans, and in schizophrenia patients in the acute stages of the disorder, as well as by potentiated LI in normal humans treated with APDs. Consequently, disrupted LI is considered to provide an animal model of positive symptoms of schizophrenia with face, construct and predictive validity. Objectives To review most of the rodent data on the neural substrates of LI as well as on the effects of APDs on this phenomenon with an attempt to interpret and integrate these data within the framework of the switching model of LI; to show that there are two distinct LI models, disrupted and abnormally persistent LI; to relate these findings to the clinical condition. Results The nucleus accumbens (NAC) and its DA innervation form a crucial component of the neural circuitry of LI, and are involved at the conditioning stage. There is a clear functional differentiation between the NAC shell and core subregions whereby damage to the shell disrupts LI and damage to the core renders LI abnormally persistent under conditions that disrupt LI in normal rats. The effects of shell and core lesions parallel those produced by lesions to the major sources of input to the NAC: entorhinal cortex lesion, like shell lesion, disrupts LI, whereas hippocampal lesion, like core lesion, produces persistent LI with changes in context, and basolateral amygdala (BLA) lesion, like core lesion, produces persistent LI with extended conditioning. Systemically induced blockade of glutamatergic as well as DA transmission produce persistent LI via effects exerted at the conditioning stage, whereas enhancement of DA transmission disrupts LI via effects at the conditioning stage. Serotonergic manipulations can disrupt or potentiate LI via effects at the pre-exposure stage. Both typical and atypical APDs potentiate LI via effects at conditioning whereas atypical APDs in addition disrupt LI via effects at pre-exposure. Schizophrenia patients can exhibit disrupted or normal LI as a function of the state of the disorder (acute versus chronic), as well as persistent LI. Conclusions Different drug and lesion manipulations produce two poles of abnormality in LI, namely, disrupted LI under conditions which lead to LI in normal rats, and abnormally persistent LI under conditions which disrupt it in normal rats. Disrupted and persistent LI are differentially responsive to APDs, with the former reversed by both typical and atypical APDs and the latter selectively reversed by atypical APDs. It is suggested that this "two-headed LI model" mimics two extremes of deficient cognitive switching seen in schizophrenia, excessive and retarded switching between associations, mediated by dysfunction of different brain circuitries, and can serve to model positive symptoms of schizophrenia and typical antipsychotic action, as well as negative symptoms of schizophrenia and atypical antipsychotic action.     

The sigma ligand BMY-14802 as a potential antipsychotic: evidence from the latent inhibition model in rats

Latent inhibition (LI) is a measure of retarded conditioning to a previously-presented nonreinforced stimulus, that is impaired in schizophrenic patients and in rats treated with amphetamine. Neuroleptic drugs are known to produce two effects in this test paradigm: to antagonise amphetamine-induced disruption of LI, and to enhance LI when administered on their own. The present experiments tested the effects on LI of a potential antipsychotic, sigma ligand BMY-14802. The experiments used a conditioned emotional response (CER) procedure in rats licking for water, consisting of three stages: preexposure, in which the to-be-conditioned stimulus (a tone) was repeatedly presented without being followed by reinforcement; conditioning, in which the preexposed stimulus was paired with reinforcement (a foot shock); and test, in which LI was indexed by animals' degree of suppression of licking during tone presentation. In Experiment 1, 20 tone preexposures and two conditioning trials were given and the effects of 5, 15, and 30mg/kg BMY-14802 were assessed. Experiment 2 tested the effects of 15 and 30mg/kg on LI using ten preexposures and two conditioning trials. Experiment 3 investigated the effects of 15 and 30mg/kg on LI using 40 preexposures and extended conditioning consisting of five tone-shock pairings. Experiments 4 and 5 investigated antagonism of amphetamine-induced disruption of LI by 15 and 30mg/kg BMY-14802, respectively. BMY-14802 was found to antagonise amphetamine-induced disruption of LI and enhance LI when low numbers of preexposures and two conditioning trials were given, but not following extended conditioning. These results provide partial support for the suggestion that BMY-14802 may possess antipsychotic properties.     

Dopamine in nucleus accumbens: salience modulation in latent inhibition and overshadowing

Latent inhibition (LI) is demonstrated when non-reinforced pre-exposure to a to-be-conditioned stimulus retards later learning. Learning is similarly retarded in overshadowing, in this case using the relative intensity of competing cues to manipulate associability. Electrolytic/excitotoxic lesions to shell accumbens (NAc) and systemic amphetamine both reliably abolish LI. Here a conditioned emotional response procedure was used to demonstrate LI and overshadowing and to examine the role of dopamine (DA) within NAc. Experiment 1 showed that LI but not overshadowing was abolished by systemic amphetamine (1.0 mg/kg i.p.). In Experiment 2, 6-hydroxydopamine (6-OHDA) was used to lesion DA terminals within NAc: both shell- and core- (plus shell-)lesioned rats showed normal LI and overshadowing. Experiment 3 compared the effects of amphetamine microinjected at shell and core coordinates prior to conditioning: LI, but not overshadowing, was abolished by 10.0 but not 5.0 μg/side amphetamine injected in core but not shell NAc. These results suggest that the abolition of LI produced by NAc shell lesions is not readily reproduced by regionally restricted DA depletion within NAc; core rather than shell NAc mediates amphetamine-induced abolition of LI; overshadowing is modulated by different neural substrates.     

Typical but not "atypical" antipsychotic effects on startle gating deficits in prepubertal rats

RATIONALE: Dopamine (DA) agonists and NMDA antagonists disrupt sensorimotor gating in rats, as measured by a loss of prepulse inhibition of the startle reflex. These effects are used in predictive models for antipsychotic efficacy: clinically "typical" and "atypical" antipsychotics restore PPI in adult rats treated with DA agonists such as apomorphine (APO), while clinically "atypical" antipsychotics restore PPI in rats treated with NMDA antagonists such as phencyclidine (PCP). We previously reported that the PPI disruptive effects of both APO and PCP are evident in 16- to 18-day-old rat pups, suggesting that the brain substrates for these effects are functional very early in development. OBJECTIVE: In the present study we assessed the developmental patterns of antipsychotic effects in these measures. METHODS: The PPI-disruptive effects of APO and PCP, and their antagonism by the typical antipsychotic haloperidol, and the atypical antipsychotic quetiapine, were assessed across development in Sprague-Dawley rats. RESULTS: Similar to the pattern seen in adults, both haloperidol and quetiapine opposed APO-induced PPI deficits in 16- to 19-day-old rat pups. However, the "atypical" antipsychotic quetiapine did not oppose PCP-induced PPI deficits in pups or prepubertal (45 day) adolescents, but did oppose these PCP effects in postpubertal rats. CONCLUSIONS: While brain substrates mediating the PPI-disruptive effects of DA agonists and NMDA antagonists are functional early in development, some physiological event associated with puberty is a necessary condition for the "atypical antipsychotic profile" in this predictive model.     

Restoration of latent inhibition by olanzapine but not haloperidol in entorhinal cortex-lesioned rats

RATIONALE: Latent inhibition (LI) refers to the decrease in conditioned response induced by the repeated non-reinforced pre-exposure to the conditioned stimulus before its pairing with the unconditioned stimulus during the conditioning stage. LI has been considered as a relevant animal model for the study of the biological bases of schizophrenia. LI has recently been demonstrated to depend on the integrity of the entorhinal cortex, as lesioning of this area disrupted LI. OBJECTIVES: The present study aimed to verify whether the classical neuroleptic haloperidol and/or the atypical antipsychotic olanzapine would prevent the effect of entorhinal cortex lesioning. METHODS: LI was studied in an off-baseline conditioned emotional response (CER) paradigm in which a tone is paired with a footshock. Entorhinal cortex lesions were produced by the electrolytic method. After a recovery period, both lesioned and control rats received either haloperidol (0.3 mg/kg), olanzapine (0.3 mg/kg) or vehicle before both the pre-exposure and conditioning stages of the experiment. RESULTS: In control rats, pre-exposure to the tone induced LI, which was affected by neither haloperidol nor olanzapine. Lesioning of the entorhinal cortex produced a deficit of LI, which was restored by olanzapine but not by haloperidol. CONCLUSIONS: This result suggests a dissociation of the anatomical and pharmacological targets of the two drugs. The possible involvement of dopamine D3 receptors in the effects of olanzapine is discussed.     

Gonadal hormone-induced changes in adult male and female rats exposed to early postnatal handling are not altered by prenatal morphine exposure

The purpose of the present study was to investigate the long-term effects of early postnatal handling in several gonadal hormone conditions in adult male and female rats exposed prenatally to morphine or saline. An open-field apparatus was used to test locomotor activities such as line crossing, rearing, grooming, and anxiety-like behaviors such as visiting squares alongside the walls of the open field and boli dropping. Postnatal handling increased locomotor activities in gonadally intact males and in all groups of hormone-manipulated females, but did not change them in gonadectomized (GNX) males. Additionally, there was a decrease in anxiety-like behavior in ovariectomized (OVX) females after estradiol benzoate (EB) or EB and progesterone (P) replacement due to handling. Handling did not affect anxiety-like behaviors in OVX females or in GNX or gonadally intact males. Prenatal morphine exposure did not alter any open-field measures in handled or nonhandled animals when compared to saline controls. Thus, the present study demonstrates that early postnatal handling induces long-lasting changes in locomotor and anxiety-like behaviors of adult male and female rats regardless of their prenatal exposure to morphine. These changes are gonadal hormone specific.     

Antagonism of amphetamine-induced disruption of latent inhibition by the atypical antipsychotic olanzapine in rats

The present study aimed at characterising the effects of the new antipsychotic olanzapine in a Latent Inhibition (LI) paradigm. A conditioned emotional response (CER) procedure was used, consisting of three stages: pre-exposure, in which the to-be-conditioned stimulus (a tone) was presented six times without being followed by reinforcement; conditioning, in which the pre-exposed stimulus was paired twice with reinforcement (a foot shock); and test, in which LI was assessed by the suppression of licking during the tone presentation. In Experiment I, it was found that pre-treatment with an intermediate dose (0.312mg/kg) of olanzapine, but not with lower (0.003; 0.031mg/kg) or higher doses (0.625; 1.25mg/kg), restored LI in amphetamine-treated (1.5mg/kg) animals. This effect could not be attributed to a disruptive effect of olanzapine on CER learning, as olanzapine per se had no effect on this conditioning (Experiment 2). In Experiment 3, olanzapine did not antagonise the amphetamine-induced locomotor hyperactivity. As olanzapine has not only dopaminergic, but also serotonergic, adrenergic, histaminergic and cholinergic activities, the differential effects of olanzapine on amphetamine-induced disruption of LI and hyperactivity may reflect an action on several pharmacological targets, possibly interacting with one another.     

Long-lasting changes in stress-induced corticosterone response and anxiety-like behaviors as a consequence of neonatal maternal separation in Long-Evans rats

Early neonatal environmental factors appear to have powerful and long-lasting influences on an organism's physiology and behavior. Long-Evans male rats separated from their dam for 3 h daily over the first 2 weeks of life (maternally separated, MS rats) when tested as adults exhibit exaggerated behavioral and neuroendocrine responses to stress compared to 15-min separated (handled, H) animals. The purpose of this study was to compare male and female adult rats that were MS, H or were undisturbed (nonhandled, NH) as neonates in anxiety-like behaviors, in the elevated plus-maze, and in response to startle-inducing auditory stimuli. We confirmed that MS males oversecrete corticosterone (CORT; 2.5-5 times) in response to mild handling stress. MS males and females were less likely to explore open arms of the plus-maze. MS males exhibited 35% higher startle amplitudes compared to controls. Furthermore, MS males were more likely to emit ultrasonic vocalizations in response to startle than were H controls. However, MS and control females did not differ in auditory startle response or in startle-induced ultrasonic vocalizations. Therefore, experiencing maternal separation results in a long-lasting increase in anxiety-like behaviors that occurs in a sex-dependent manner.