Jan van der Heyden

Inescapable footshocks induce progressive and long-lasting behavioural changes in male rats.

Long-term behavioural consequences of exposure to a brief (15 min) session of inescapable footshocks (10 x 6 s, 1 mA) were investigated in male rats. The time course of the effects of inescapable footshocks was assessed by studying the behaviour of groups of rats at different post-stress intervals. Footshocked rats (S) did not differ from control (C) rats (exposed to the shock box for 15 min) in their behavioural response to an open field whether tested 1 h or 4 h post-stress. However, one day after shocks, S rats showed less locomotion and rearing, and more immobility and attention as compared to C rats. At 7 days or 14 days post-stress, S rats exhibited decreased locomotion, rearing, sniffing, and grooming, and increased immobility, attention, and defecation relative to C rats. In a second experiment, we investigated whether footshocks affect the behavioural response to a sudden drop in background noise during exposure to a novel environment. At 21 days post-stress, S rats showed a markedly enhanced immobility response to this stimulus as compared to C rats. In order to investigate whether rats could be exposed repeatedly to the open field without affecting the differences in behaviour between the two treatment groups, C and S rats were tested in an open field for the first time at 7 days post-stress, which yielded the typical effects of footshocks. When these rats were exposed to a second open-field test one week later, the behavioural responses of C and S rats were not different.(ABSTRACT TRUNCATED AT 250 WORDS)

Stress-Induced Hyperthermia in Singly Housed Mice

The stress-induced hyperthermia (SIH) paradigm in group-housed mice allows screening of putative anxiolytic drugs. The group-housed SIH was adapted to singly housed animals in order to drastically reduce the number of animals used. The effect of various stressors on rectal temperature was measured in order to find a simple and reliable test procedure. Repeated, but not single disturbance of animals resulted in a strong hyperthermia (deltaT) within 10 min. Similar hyperthermic responses were obtained after immobilization for 1 min or rectal temperature measurement itself. Neither a 120 dB acoustic stimulus, nor repeated 1 mA footshocks led to a temperature change, but 2 mA electric footshocks led to hyperthermia. The final test paradigm chosen involved repeated temperature measurement at a 10 min interval, thus providing both information on basal temperature and deltaT in each animal within a short time frame. Repeated temperature measurements at 10 min intervals revealed a maximum hyperthermia after approximately 30 min, but up to 70% of the hyperthermia is already present 10 min after the first measurement. Repeated use of animals at successive daily or weekly intervals resulted in a gradual increase of both the basal temperature and the temperature 10 min later. At short inter-test intervals (one day) deltaT also decreased, whereas weekly intervals did not affect the amplitude of deltaT. Prior injection of the animals resulted in modest hyperthermia, that returned to baseline after 60 min. The anxiolytics diazepam and 5-HT1A receptor agonist flesinoxan dose-dependently suppressed SIH. The antidepressant amitriptyline lowered temperature levels but did not affect deltaT. The SIH model in singly housed mice appears a fast and reproducible screening test for anxiolytic activity. Compared to the group-housed version, the singly-housed SIH enabled a drastic reduction in the number of animals used.

Characterization of stress-induced long-term behavioural changes in rats: Evidence in favor of anxiety

Recently, we reported that rats exposed to one brief session of inescapable footshocks showed a gradually developing and long-lasting decrease in behavioural activity and an increase in defecation in an open field. The aim of the present study was to further characterize the long-lasting changes in behavioural responsiveness to environmental stimuli. For this purpose, behavioural paradigms validated as tools in the preclinical study of the psychobiology of depression were used. Footshocked rats (S) showed a decreased response latency in an one-way avoidance-escape task and decreased immobility in a forced swim test as compared to nonshocked control rats (C) 14 days after shock exposure. These S rats showed decreased behavioural activity and increased defecation as compared to the C rats in an open field test carried out 28 days after footshock exposure. In addition, footshock exposure did not affect the preference for or consumption of a 0.05% saccharin solution on a long-term basis, although a decreased consumption of this solution was evident in S rats on day 1 postshock. These S rats showed an exaggerated immobility response to a sudden reduction in background noise level compared to C rats while placed in a novel environment on day 11 postshock. We conclude that the long-term effects of one short session of inescapable footshocks are not compatible with what is supposed to represent behavioural manifestations of depression in animals. It is argued that the common denominator of shock-induced long-lasting changes is increased behavioural defensiveness, which is more likely related to increased fear and/or anxiety.

Serotonergic modulation of social interactions in isolated male mice

Several serotonergic drugs were tested in isolation-induced aggressive behavior in male mice using ethological methodology. Eltoprazine, a mixed 5-HT1 agonist, reduced aggression but enhanced social interest and exploration. Several 5-HT1A agonists (8-OH-DPAT, ipsapirone, buspirone, 5-Me-ODMT) and a 5-HT uptake blocker (fluvoxamine) also reduced aggression. Although these drugs somewhat differentially affect aggressive behavior, the isolation-induced paradigm alone is not sensitive enough to successfully differentiate and screen the various serotonergic drugs with regard to their influence on social behavior in mice. It is argued that various animal paradigms in several species are necessary to describe specific effects of serotonergic drugs.

Stress-induced hyperthermia in mice: A methodological study

When the rectal temperature of group-housed mice is measured sequentially, the temperature of the last measured mouse is higher than that of the first mouse. This phenomenon is called stress-induced hyperthermia (SIH). We varied several experimental parameters to elucidate the mechanism behind this SIH. SIH was stable and found by all technicians performing the experiments. The large intertechnician difference in the mean rectal temperature could be eliminated by training in an identical fixation and handling technique. SIH was both independent of the number of handling days preceding the experiment and of the number of disturbances (0, 1, 2, or 5) implied on the mice per minute. The percentage of hyperthermic mice in 10-mice cages increased when the time interval between the individual measurements increased from 1 to 2, 5 or 10 min. In all groups the maximum increase was reached after an interval of approximately 10 min. SIH of mouse 10 returned time dependently in approximately 60 min to basal temperature. When SIH was tested on 2 or 5 successive days no tolerance developed. When animals were reused after 7 or 14 days SIH did not differ from day 1, implying that animals can be reused. When the number of mice was decreased from 10 to 5 mice per cage, the SIH of vehicle-treated mice was slightly lower in 5-mice cages compared to 10-mice cages. The blocking effects on SIH by anxiolytics was also less clear in 5-mice cages compared to 10-mice cages.(ABSTRACT TRUNCATED AT 250 WORDS)

Stress-induced hyperthermia in mice: Hormonal correlates

In the stress-induced hyperthermia (SIH) paradigm in group-housed male mice, the rectal temperature of last measured mice is approximately 1.5 degrees C higher than the first measured one when the temperature of each mouse is measured sequentially with an interval of 1 min. In the present study it is demonstrated that SIH is accompanied by increases in plasma ACTH, corticosterone, and glucose levels that return to baseline more or less parallel to the temperature. The simultaneous increases in temperature and plasma stress hormones strongly support the use of the SIH paradigm in mice as an animal model to study putative anti-stress or anxiolytic properties of drugs.

New animal models of anxiety

In an attempt to develop new animal models of anxiety with face and predictive validity for the spectrum of human anxiety disorders, two new animal paradigms have been described, stress-induced hyperthermia (SIH) in mice and ultrasonic pup vocalizations (UV) in rats. In SIH mice develop enhanced body temperature in anticipation of an aversive event. This SIH can be antagonized by benzodiazepines, alcohol and 5-HT1A receptor agonists, but not by specific 5-HT reuptake inhibitors (SSRIs) or 5-HT3 receptor antagonists. When rat pups are separated from their mother and littermates they produce ultrasonic sounds, indicative of a separation distress. Benzodiazepines, 5-HT1A receptor agonists and SSRIs decrease this calling, whereas 5-HT3 receptor antagonists have no effect. Antidepressants in general do not decrease pup calling because in contrast to the SSRIs, noradrenergic uptake blockers enhance calling. These two animal models of anxiety can be added to the range of anxiety models and will be of help in predicting new putative anxiolytic drugs.

Neonatal lesions in the amygdala or ventral hippocampus disrupt prepulse inhibition of the acoustic startle response; implications for an animal model of neurodevelopmental disorders like schizophrenia

Prepulse inhibition of the acoustic startle response is a behavioural tool applied to assess sensorimotor gating processes in humans and rats. Schizophrenic patients show deficits in prepulse inhibition of the acoustic startle response. The animal model of neurodevelopmental disorders such as schizophrenia, as purported in earlier reports and the present study, is based on the assumption that damage to brain structures early in life (on day 7) disrupts brain maturation of structures connected to the damaged areas, measurable by behavioural changes, whereas similar damage later in life (on day 21) does not result in these behavioural changes. Locomotor activity, the acoustic startle response and its prepulse inhibition were investigated in adult rats lesioned in the amygdala or ventral hippocampus on day 7 or 21 of life. The acoustic startle response was increased in animals lesioned in the amygdala on day 7 or 21 of life, but not in animals lesioned in the ventral hippocampus. Prepulse inhibition was impaired and locomotor activity enhanced in animals lesioned in the amygdala or ventral hippocampus on day 7, but not in animals lesioned in these structures on day 21 of life. The results on the acoustic startle response are suggestive of amygdaloid influences on modulation of the acoustic startle response. The effects of early postnatal lesions on prepulse inhibition and locomotor activity are in support of the animal model of neurodevelopmental disorders like schizophrenia.

Serotonergic Modulation of Agonistic Behaviour

Over the last fifteen years several hypotheses have emerged concerning the neurochemical control of aggressive behaviour. A variety of single neurotransmitters were suggested to control. aggression e.g. the “aggressive monoamines” (Eichelman and Thoa 973), acetylcholine (Smith et a1. 1970) and serotonin (Valzelli and Garattini 1968). Later, the theories of single neurotransmitter control were extended to multi-transmitter modulation of aggressive behaviour (Avis 1974; Daruna 1978; Pradhan 1915; Reis 1974).

New 1-aryl-4-(biarylmethylene)piperazines as potential atypical antipsychotics sharing dopamine D2-Receptor and serotonin 5-HT1A-Receptor affinities

This paper describes the syntheses of several 1-aryl-4-(biarylmethylene)piperazines and the results of the determination of their affinity for D(2) and 5-HT(1A) receptors. A selection of these compounds was evaluated in vivo, resulting in the identification of a drug candidate which is being clinically evaluated as a potential atypical antipsychotic with reduced extrapyrimidal side effects.