Maria Giuseppa Corda

Genetic selection and differential stress responses - The Roman lines/strains of rats

ETH, Institut fur Natztierwissenschaften, Schorenstrasse 16, CH-8603 Schwerzenbach, Switzerland Autonomous University of Barcelona, Medical Psychology Unit, E-08193 Bellaterra (Barcelona), Spain University of Santiago de Compostela, Department of Psychobiology, E-15705 Santiago de Compostela, Spain University of Cagliari, Department of Toxicology, Viale A. Diaz 182, I-09126 Cagliari, Italy University of Magdeburg, Anatomy Institute, Leipzigerstrasse 44, D-39120 Magdeburg, Germany IUPG, Clinical Psychopharmacology Unit, 100 avenue de Bel-Air, CH-1225 Chene-Bourg (GE), Switzerland NV Organon, RE 2211, P.O. Box 20, NL-5340 BH Oss, the Netherlands University of Oxford, Institute of Molecular Medicine, John Radcliffe Hospital, Headington, GB-Oxford OX3 9DU, England University of Groningen, Department of Animal Physiology, Kerklaan 30, P.O. Box 14, NL-9750 AA Haren, the Netherlands University of Delaware, Departments of Psychology and Biology, Newark, Delaware 19716 USA

Dissociation between mesocortical dopamine release and fear-related behaviours in two psychogenetically selected lines of rats that differ in coping strategies to aversive conditions.

The mesocortical and mesolimbic dopaminergic (DAergic) pathways are activated by either aversive or rewarding stimuli. The functional tone of these DAergic neurons also increases during the execution of cognitive tasks. The present study was designed to examine the relationship between mesocortical and mesolimbic DAergic function and the expression of fear‐related behaviours as compared with attention‐ and cognition‐related mechanisms (e.g. coping strategies), in response to aversive conditions. To this aim, we used two psychogenetically selected rat lines, Roman high‐avoidance (RHA/Verh) and Roman low‐avoidance (RLA/Verh), which display drastically different emotion‐ and coping‐related behaviours in response to stressors: RLA/Verh rats are ‘reactive copers’ and more fearful than RHA/Verh rats, which are ‘proactive copers’. Brain dialysis experiments demonstrated that tail‐pinch (TP) and the anxiogenic compounds pentylenetetrazol (PTZ) and ZK 93426 increased DA output in the medial prefrontal cortex (PFCX) of RHA/Verh but not RLA/Verh, rats. In contrast, in the shell compartment of the nucleus accumbens (NAC shell), TP caused a small increase in DA output only in RLA/Verh rats, whereas PTZ and ZK 93426 had no significant effect on either line. RHA/Verh rats displayed more robust and longer lasting coping activity and less frequent freezing and self‐grooming episodes than did RLA/Verh rats after TP, PTZ or ZK 93426. This dissociation between fear‐related behaviour and cortical DAergic activation argues against the view that the latter may be involved in the control of fear‐like responses. We therefore propose that the activation of mesocortical DAergic projections by aversive stimuli underlies the cognitive mechanisms that are triggered in an attempt to gain control over the stressor.

The psychogenetically selected Roman high-and low-avoidance rat lines : A model to study the individual vulnerability to drug addiction

The Roman high- (RHA) and low-avoidance (RLA) rat lines were selected for, respectively, rapid vs poor acquisition of two-way active avoidance in the shuttle-box. Here, we review experimental evidence indicating that, compared with their RLA counterparts, RHA rats display a robust sensation/novelty seeking profile, a marked preference and intake of natural or drug rewards, and more pronounced behavioral and neurochemical responses to the acute administration of morphine and psychostimulants. Moreover, we show that (i) the repeated administration of morphine and cocaine elicits behavioral sensitization in RHA, but not RLA, rats, (ii) in sensitized RHA rats, acute morphine and cocaine cause a larger increment in dopamine output in the core, and an attenuated dopaminergic response in the shell of the nucleus accumbens, as compared with RHA rats repeatedly treated with saline, and (iii) such neurochemical changes are not observed in the mesoaccumbens dopaminergic system of the sensitization-resistant RLA line. Behavioral sensitization plays a key role in several cardinal features of addiction, including drug craving, compulsive drug seeking and propensity to relapse following detoxification. Comparative studies in the Roman lines may therefore represent a valid approach to evaluate the contribution of the genotype on the neural substrates of drug sensitization and addiction.

Behavior of the Roman/Verh high- and low-avoidance rat lines in anxiety tests: relationship with defecation and self-grooming

The Swiss sublines of Roman high- and low-avoidance (RHA/Verh and RLA/Verh) rats have been selected and bred for rapid (RHA/Verh) vs. extremely poor (RLA/Verh) acquisition of two-way active avoidance. Behavioral and physiological measures of emotionality, or reactivity to stress, appear to be among the most prominent characteristics differentiating both rat lines. The present study shows that RLA/Verh rats are more sensitive, as compared to their RHA/Verh counterparts, to the conflict involved in the shock-induced suppression of drinking paradigm, as well as in a hyponeophagia test. RLA/Verh rats also showed higher defecation values which were significantly correlated with the main hyponeophagia test variables. Likewise, self-grooming was more frequent in RLA/Verh rats than in their RHA/Verh counterparts and showed significant correlations with conflict-related behaviors (i.e., latency to start eating and time spent eating) from the hyponeophagia test. These results give additional support to the contention that RLA/Verh rats present higher anxiety (emotionality) than their RHA/Verh counterparts.

The Roman High- and Low-Avoidance Rat Lines Differ in the Acquisition, Maintenance, Extinction, and Reinstatement of Intravenous Cocaine Self-Administration

The selective breeding of Roman high- (RHA) and low-avoidance (RLA) rats for, respectively, rapid vs extremely poor acquisition of avoidant behavior in a shuttlebox has produced two phenotypes that differ in temperament traits, in mesocortical/mesolimbic dopamine system function, and in the behavioral and neurochemical responses to the acute and repeated administration of psychostimulants and opiates. The phenotypic traits of the RHA line predict higher susceptibility, compared with RLA rats, to the reinforcing properties of addictive substances like cocaine. The present study was designed to compare the acquisition, maintenance, reinstatement of drug-seeking after long-term extinction, and reacquisition of intravenous cocaine self-administration (SA) behavior in the Roman lines. Compared with RLA rats, the rates of responding during cocaine SA acquisition were higher, extinction from cocaine SA was prolonged, and drug-induced reinstatement of cocaine-seeking behavior was more robust in RHA rats. Moreover, only RHA rats reacquired extinguished lever-pressing activity when a low reinforcing dose of cocaine was available. These findings are consistent with the view that subjects with genetically determined high responsiveness to the acute and chronic (ie, sensitizing) effects of psychostimulants, such as RHA rats, also display a higher propensity to self -administer cocaine. Further comparative studies in the Roman lines, using SA paradigms that distinguish mere drug-taking from the compulsive and uncontrolled drug use that characterizes addiction in humans, may eventually help to characterize the relationships among genotype, temperament traits, and neurobiological mechanisms involved in the individual vulnerability to cocaine addiction.

A differential activation of dopamine output in the shell and core of the nucleus accumbens is associated with the motor responses to addictive drugs: a brain dialysis study in Roman high- and low-avoidance rats

Addictive substances like morphine and psychostimulants induce a preferential increase in dopamine (DA) output in the nucleus accumbens (NAC), a major terminal field of the mesolimbic dopaminergic projection. Two subregions of the NAC, the dorsolateral core and the ventromedial shell, are thought to subserve different functions related to the reinforcing properties of natural and drug rewards. The selective breeding of Roman high- (RHA) and low-avoidance (RLA) rats, respectively, for rapid vs. extremely poor active avoidance acquisition in a shuttle-box has resulted in two phenotypes that differ in their behavioural and neurochemical responses to addictive drugs. We used brain dialysis to assess whether such differences in the responsiveness to drugs of abuse are related to differences in mesolimbic DA neuron function. In RHA rats, morphine, cocaine, and amphetamine caused a larger increase in DA efflux in the NAC shell vs. the NAC core, whereas the profile for the drug-induced increases in DA output was almost completely superimposable in the NAC shell and NAC core of RLA rats. Moreover, morphine, cocaine, and amphetamine caused a larger increment in basal DA output in the NAC shell of RHA rats vs. the NAC shell of RLA rats. These drugs also elicited a more robust increase in locomotion, rearing, sniffing, and grooming in RHA than in RLA rats. These results demonstrate that genetically determined differences in the functional properties of DA neurons projecting to the NAC shell may critically influence the behavioural response patterns to addictive drugs that distinguish the Roman lines.

MK-801 prevents chemical kindling induced by pentylenetetrazol in rats

The repeated administration of pentylenetetrazol (PTZ) at a subconvulsant dose (30 mg/kg i.p., three times a week for nine weeks) produced kindling in 90% of rats under treatment. Pretreatment with the N-methyl-D-aspartate receptor antagonist, MK-801 (1 mg/kg i.p., 40 min before PTZ), prevented the behavioral manifestation (i.e. motor seizures) as well as the development of kindling. In fact, convulsions were not observed in rats pretreated with MK-801 either during the chronic PTZ administration or when challenged with PTZ three and 10 days after completion of the chronic treatment. The results suggest an involvement of excitatory amino acid neurotransmission in PTZ kindling.

Proconflict effect of GABA receptor complex antagonists: Reversal by diazepam

The effect of drugs which down-regulate the function of GABA at the level of the GABA/benzodiazepine receptor complex was studied on the conflict test in the rat. The GABA receptor antagonist, bicuculline, and the blockers of the GABA-receptor-coupled chloride channel, picrotoxin and pentylenetetrazol, produced a dose-dependent proconflict effect. This effect occurred at dose levels which failed to affect unpunished behaviour. The most effective compounds were bicuculline and picrotoxin. The proconflict effect of these drugs was prevented by diazepam but not by the specific benzodiazepine antagonist, Ro15-1788. The data indicate that a diminished GABAergic activity at different subunits of the GABA receptor complex resulted in an enhancement of punishment-suppressed behaviour in rats.

Effect of muscimol, a gaba-mimetic agent, on dopamine metabolism in the mouse brain

Abstract The intraperitoneal injection of muscimol at the dose of ranging from 0.5 to 5 mg/kg produced hypomotility, catalepsy and loss of righting reflex in mice. These effects were associated with an initial brief fall followed by a more sustained increase in homovanillic acid and dihydroxyphenylacetic acid levels, without changes in dopamine concentration. Diazepam potentiated the effect of muscimol in motor activity and on dopamine metabolism.

Changes in GABAergic transmission induced by stress, anxiogenic and anxiolytic β-carbolines

The cerebral cortex of unstressed (handling-habituated) rats has a higher number of low affinity GABA receptors than stressed (naive) rats. Foot shock stress delivered to unstressed rats decreases the density of cortical low affinity GABA receptors to the level found in the naive animals. The effect of stress on GABA receptors is mimicked by anxiogenic beta-carbolines, both after in vitro addition (10(-6) M) to cortical membrane preparations or after the in vivo administration (20 mg/kg IP) to unstressed rats. Vice versa, benzodiazepines or anxiolytic beta-carbolines (ZK 93423, 10(-5) M) added to membranes from naive rats increase GABA binding to the level of unstressed rats and remove the decrease in the density of GABA receptors elicited by anxiogenic beta-carbolines. Rats chronically treated with the anxiogenic beta-carboline, FG 7142 (15 mg/kg IP twice a day for 10 consecutive days) have an enhanced sensitivity to punishment at 5 and 15 days after the last treatment. The behavioural effect is paralleled by a marked decrease in the total number of cortical low affinity GABA receptors. Both biochemical and behavioural effects elicited by chronic FG 7142 are prevented by the concurrent administration of the benzodiazepine antagonist Ro15-1788. These results suggest that (a) anxiolytic beta-carbolines, like benzodiazepines, increase the GABAergic transmission, (b) acute and chronic anxiogenic beta-carboline administration, like stress, decreases GABAergic transmission. Since all these effects are antagonized by the benzodiazepine receptor blocker Ro15-1788, it is tempting to speculate that stress releases an endogenous ligand for benzodiazepine recognition sites.