Behavioural anxiolytic effects of low-dose anabolic androgenic steroid treatment in rats

The use of anabolic androgenic steroids (AAS) in supratherapeutic doses has been associated with aggressive behaviour as well as with severe affective and psychotic symptoms. These symptoms usually follow a chronic exposure for several months. However, AAS also may have milder effects with hypomania-like features such as an increase in confidence, energy and self-esteem. We have studied the short-term effects on male rat behaviour in a modified open-field test of the AAS Metenolon administered three times at a low dose (0.01 mg/kg/week x 3). The control rats showed indications of increased timidity and aversive learning following retesting, a reaction that was absent in the AAS-treated rats. The AAS-treated rats showed less fear or anticipatory anxiety compared to control animals. Furthermore, the suppressed marking behaviour and altered morphological allometric relationships were compatible with a modified social and sexual competence in the AAS treated rats.

Effects of prenatal AZT on mouse neurobehavioral development and passive avoidance learning

Recent evidence has shown that perinatal administration of zidovudine (AZT) to HIV-infected mothers reduces the risk of maternal-infant transmission of the virus. Treatment of pregnant seropositive women with AZT is becoming a common medical practice, despite the paucity of information about the potential neurotoxic/behavioral-teratogenic effects of AZT on the developing organism. The aim of the present study is to evaluate in mice the short-, medium-, and long-term effects of prenatal exposure to AZT on neurobehavioral development. Pregnant mice were given 0.2, 0.4, and 2.0 mg/ml AZT in drinking water from day 10 of gestation to delivery. Offspring's viability was severely affected in the 2.0 mg/ml AZT group. Thus, behavioral analysis was carried out in offspring of 0.2 and 0.4 mg/ml AZT-treated females only. Some limited but significant alterations were found, such as stunted body weight, delayed appearance of the pole-grasping reflex, and a slight impairment in the acquisition phase of a passive avoidance response. Moreover, sexual differences in some items of the social behavior repertoire appeared to be affected by AZT treatment.

The effects of arginine vasotocin on the calling behavior of male cricket frogs in changing social contexts

We investigated the effects of the neurohypophysial peptide, arginine vasotocin (AVT), on the calling behavior of male Acris crepitans during and immediately following a simulated acoustic agonistic encounter. AVT did not block the aggressive response to agonistic calls, as the changes in temporal call characteristics in response to the encounter were similar to those of saline-treated males. However, AVT caused males to begin calling sooner during the agonistic encounter and to call significantly more than saline males during and after the agonistic encounter. In addition, AVT-treated males maintained a higher dominant frequency compared to saline animals during and following the agonistic encounter. Changes in temporal characteristics in the period following the agonistic encounter indicated that control males were more likely to exhibit a rebound effect which resulted in larger changes in calling parameters compared to AVT-treated animals. The results indicate that AVT causes changes in calling behavior in male A. crepitans during and following an agonistic encounter that are consistent with animals highly motivated to maintain vigorous active calling throughout changing social conditions.

Alcohol and heightened aggression in individual mice

The objective of the current research was to study the large individual differences in alcohol effects on aggressive behavior under systematically varied conditions in experimental protocols with mice. Three experiments were conducted with outbred Swiss-Webster derived mice that identified those individuals whose aggressive behavior was reliably heightened by low acute alcohol doses. In all experimental protocols, low alcohol doses were orally administered to a "resident" male mouse that subsequently confronted an "intruder" opponent for 5 min while all salient elements of aggressive behavior and motor activities were quantified. In all three experiments, alcohol (1.0 g/kg) heightened aggressive behavior by at least two standard deviations of the individual's water vehicle control mean in 27% of the mice. In 64% of mice, no reliable change in aggressive behavior was detected after the identical alcohol treatment, and in 9% of the mice alcohol decreased aggressive behavior. Experiments differed in protocol indicating that these aggression-heightening effects were evident in resident mice that were either maintained at restricted or unlimited amounts of food, housed singly or in breeding pairs with a female partner, and conditioned to perform daily a food-reinforced task or remained undisturbed. The first experiment found the aggression-heightening effects to persist during weekly challenges for at least 2 months (n = 8 of 30). The second experiment showed these effects at intervals from 5 to 60 min after alcohol administration. Blood alcohol concentrations reached peak level within 5 to 10 min after oral administration in mice that had confronted an intruder. Those mice in whom alcohol heightened aggressive behavior (n = 21) did not differ from those that showed suppressed levels (n = 9) in terms of blood alcohol concentrations (79.6 vs. 82.4 mg%), suggesting that the intensity and frequency of aggressive behavior after alcohol were not directly dependent on the amount of alcohol in the circulation. The third experiment revealed that alcohol's (0.1 to 5.6 g/kg) effects on heightened aggressive behavior (n = 11) are dissociated from those on concurrently measured high- or low-rate operant performance as engendered by a multiple FR 30-FI 600 sec schedule of reinforcement. Current results indicate that this alcohol effect is relatively specific to aggressive behavior in individual animals, offering the opportunity for neuropharmacological and molecular characterization.

Mechanisms underlying the absence of the pubertal shift in the playful defense of female rats

Due to the action of testicular hormones in the perinatal period, juvenile male rats engage in more play fighting than juvenile females. Also, following puberty, males, but not females, switch to using adultlike defensive tactics more frequently during play. This change in play is also due to the action of testicular hormones perinatally. In this study, two experiments were conducted to determine if the pubertal transition in defense could be induced in females. For Experiment 1, male and female cagemates were tested before and after puberty with familiar and unfamiliar partners. Even when playfully interacting with subadult males, females did not increase the use of the adultlike defensive tactics. For Experiment 2, neonatal females were either injected with testosterone propionate (TP) or ovariectomized (OVX), and again tested before and after puberty. While the TP-treated females had higher frequencies of play fighting, they did not change their pattern of defense following puberty. The OVX females exhibited the lower frequency of play fighting typical of females, but changed their pattern of defense with increased age. Thus, it appears that the pattern of pubertal change in playful defense typical of males is inhibited by ovarian hormones. The mechanisms by which ovarian hormones could exert this effect on developing females are discussed.

Benzodiazepine and serotonergic modulation of antipredator and conspecific defense

The mammalian defense repertory comprises an array of individual behaviors that are extraordinarily sensitive to relevant features of the threat stimulus and the situation in which it occurs. In parallel with increasing awareness of the specificity and complexity of defensive behaviors and of their potential relevance to psychopathologies (e.g. anxiety, panic, and depression) is an escalating use of natural threat stimuli such as attacking conspecifics or predators in paradigms aimed at evaluating drug effects on defense. A review of the literature on benzodiazepine (BZ) and serotonin (5-HT) effects on conspecific and antipredator defense, including defensive analgesia, indicates that both types of stimuli elicit a wide array of relevant defensive behaviors. These studies suggest specificity of drug effects on particular behaviors, rather than a general alteration of all aspects of defense. However, stimulus variability and possible confounding of effects are a considerable problem with conspecific defense paradigms, while antipredator paradigms utilizing human experimenters as the predator may be difficult to use with the domesticated laboratory animal subjects. In addition, sensitivity to the organization of defensive behaviors and to differences between species in defense patterns is necessary to adequate interpretation of results. Nonetheless, these paradigms have permitted major advancements in analysis of the behavioral defense systems and their sensitive use in drug studies will greatly facilitate an understanding of the physiology of defense.

Prenatal sulfur dioxide exposure induces changes in the behavior of adult male mice during agonistic encounters

Sulfur dioxide (SO2) is one of the most important pollutants of the western countries, responsible for several cardiopulmonary diseases in humans. SO2 affects both young and adult people, causing low work productivity with social and economical costs extremely high for the communities. To test whether or not SO2 produces changes in social and/or agonistic behavior of laboratory animals, outbred CD-1 male mice were prenatally exposed to different SO2 concentrations (0, 5, 12, or 30 ppm) up to pregnancy day 14. At adulthood, following a 4-week isolation period, they underwent an aggressive encounter with CD-1 male opponents of the same age, body weight, and isolation condition (single 20-min session). The levels of several responses such as tail rattling, freezing, and defensive postures were reduced by the treatment, particularly during the initial period of the agonistic encounter, whereas offensive and attack behaviors were not significantly modified. In addition, rearing and social investigation increased. Overall, the present results indicate that prenatal SO2 exposure can alter mouse social/agonistic behavior, apparently acting on the approach phase toward the opponent and suggestive of changes in the animals' capability to cope with threatening dangerous situations.

Behavioral effects of peripheral interleukin-1 administration in adult CD-1 mice: specific inhibition of the offensive components of intermale agonistic behavior

Peripheral administration of interleukin-1beta (IL-1beta) in rodents reduces exploratory behavior in a novel environment while decreasing social investigation of a juvenile conspecific. In this study we wanted to test the effects of peripherally administered IL-1beta on another aspect of the mouse social repertoire, namely intraspecific fighting towards an adult male intruder. In the first experiment, sickness behavior induced by IL-1beta (1 microg/mouse) in adult CD-1 mice was assessed by direct observation of behavioral changes following placement into a novel environment. Three hours after injection, subjects were individually introduced for 20 min in a cage with clean sawdust and a number of behavioral items recorded. Blood samples were collected at the end of the testing session. Body temperature was measured right before, 1 h and 3.5 h following injection. In IL-1beta treated mice, exploration (assessed by measuring duration and frequency of Wall Rearing and Rearing behaviors) was nearly totally suppressed, while duration and frequency of behaviors such as Grooming, Bar Holding, and Digging were also markedly reduced. Administration of IL-1beta significantly elevated CORT secretion above basal levels and, as previously reported for mice, induced hypothermia (about 2 degrees C). In the second experiment, we assessed mice receiving IL-1beta (0.25; 0.5 or 1 microg/mouse or saline solution) in a social context. Three hours after injection, subjects were placed into a neutral cage for 20 min with a non-injected adult male conspecific and aggressive behavior scored. Overall, IL-1beta administration affected the social repertoire of treated mice in a dose-dependent fashion. Specifically, agonistic components of aggressive behavior were nearly totally suppressed, while the defensive elements, such as Upright Defensive posture, Upright Submissive posture, Crouching, or Flee were not affected by IL-1beta. Overall these data support the notion that sickness behavior induced by IL-1beta administration represents an organized behavioral strategy and is not an aspecific response to an illness-type of condition.

Effects of chronic treatment with testosterone propionate on aggression and hormonal levels in intact male mice

Effects of testosterone propionate, an anabolic-androgenic steroid (AAS), on aggression in gonadally intact male mice were examined. Animals were given weekly injections of 3.75, 7.5, 15, and 30 mg/kg of drug or sesame oil for 10 weeks. During the last 3 weeks, behavioral tests were conducted and at the end of the experiment, body, liver and testes weight and hormonal data were collected. The treatment had minimal behavioral and endocrine effects. It resulted in shorter latencies of 'threat' only in the last agonistic encounter, increases in testosterone levels and decreases in testes weight in a non-linear dose-dependant way. The action of treatment was different on threat and attack, the latter being unaffected. The behavioral effects in the total sample were only found in aggressive animals selected on the basis of their latency of attack in the first encounter.

Social influences on morphine conditioned place preference

Social defeat in dominant male rats has previously been shown to result in a loss of rank, together with decreased consumption of a palatable sucrose solution, suggestive of a decrease in hedonic tone. The present study further investigated the effect of defeat on hedonic capacity using the conditioned place preference paradigm. Stable dominance hierarchies were determined in pairs of male PVG rats by repeated observation of agonistic behaviour at the onset of the dark phase of the dark-light cycle. Dominant animals and singly housed animals were then subjected to defeat by a male of the aggressive Tryon Maze Dull (TMD) strain, either 1 (singly housed animals only) 3 or 7 days prior to the first conditioning session. Each animal was tested for place conditioning with morphine (1 mg/kg i.p.) using one rewarded and one non-rewarded conditioning trial. In this paradigm, dominant animals as well as singly housed animals showed an increase in time spent in the drug-associated side but their submissive partners did not. Three days following the defeat of a dominant animal by a TMD, place conditioning to morphine was absent in the defeated animals, but was now present in their submissive partners. Seven days following defeat, conditioning was absent in defeated animals that were now submissive, but present in defeated animals that had maintained their dominant status. In isolated animals, place conditioning was absent 1 day following defeat, but was present 3 and 7 days post-defeat. These findings suggest that morphine-induced place conditioning is influenced by both the experience of defeat and the effects of defeat on social status.

Potentiation of the time-dependent, antidepressant-induced changes in the agonistic behaviour of resident rats by the 5-HT1A receptor antagonist, WAY-100635

Acute and chronic antidepressant drug treatments respectively decrease and increase the aggressive behaviour of resident rats during encounters with unfamiliar conspecifics. We have now examined the effect of the 5-hydroxytryptamine1A receptor antagonist, WAY-100635, on fluoxetine-, paroxetine- or venlafaxine-induced changes in aggression. WAY-100635 (0.1 mg/kg), which did not modify behaviour when given alone, potentiated the venlafaxine (5.54 mg/kg)-induced reduction in aggression after acute treatment and, during chronic treatment, accelerated the fluoxetine (0.34 mg/kg/day)-induced increase in aggression, from day 5 to day 2. A similar change in time course was seen with paroxetine (0.33 mg/kg/day), although the increase in aggression was smaller. Venlafaxine (5.54 mg/kg/day, alone or co-administered with WAY-100635) increased aggression by day 2. During chronic treatment, therefore, venlafaxine, at the dose used, had a more rapid onset of action than either fluoxetine or paroxetine, whereas the fluoxetine- and paroxetine-, but not the venlafaxine-, induced increase in aggression was accelerated by WAY-100635. These studies further support the hypothesis that selective blockade of the 5-hydroxytryptamine1A receptor augments the effects of antidepressant drugs in an animal model predictive of antidepressant activity, presumably by concomitant blockade of the somatodendritic 5-hydroxytryptamine1A autoreceptor-mediated negative feedback system of serotonergic neurones.

Interaction of morphine and haloperidol on agonistic and motor behaviors of male mice

To further clarify the interaction between opioid and dopaminergic systems, the effects of simultaneous administration of morphine hydrochloride (1.25 or 2.5 mg/kg) and haloperidol (0.1 mg/kg) on aggressive behavior of male mice were explored. Isolated male mice (experimental animals) were confronted in a neutral area with anosmic, group-housed consepecifics (standard opponents) 30 min after injection of both compounds, and aggression was evaluated by estimation of times allocated to 11 different behavioral categories. In the first experiment (which functioned as a pilot study), the two doses of morphine were explored. In the second one, incorporating a more complete experimental design, only the lowest morphine dose was used and the animals were preselected by a previous aggression test. In attack behavior, morphine added to haloperidol counteracted, at least partially, the antiaggressive effect of the neuroleptic. In contrast, the impairing effects of haloperidol on motor activity were increased by the addition of morphine. These results show that the behavioral effects of dopaminergic antagonists are modulated by opioid influences and that opiates and dopaminergic agents interact in a different manner on motor and on aggressive behaviors.

Differential contributions of the two visual pathways to functional lateralization in chicks

The contribution of the two visual pathways to lateralization of visual behaviour in chicks was assessed using unilateral injections of 0.5 microliters of 100 mM monosodium glutamate into localized regions of the forebrain. Chicks treated with glutamate in the left visual hyperstriatum made more errors in a visual discrimination task (pebble-floor test) than did chicks treated in the right visual hyperstriatum. Glutamate injection into the left visual hyperstriatum also elevated attack and copulation scores, but this did not occur following injection of the right visual hyperstriatum. The performance of chicks treated in the right visual hyperstriatum did not differ from that of sham-operated controls. Thus, only the left visual hyperstriatum is involved in the control of these three visually guided behaviours. By contrast, glutamate injections of the left ectostriatum affected only the attack behavior and not performance in the pebble-floor test or copulation responses. Glutamate treatment of the right ectostriatum had no affect on any of the behaviours tested and this was also the case for glutamate treatment of both the left and right neostriata. Although injecting glutamate in a larger volume that allows glutamate to spread over a wide area of the left hemisphere is known to retard auditory habituation, localized injection of glutamate in the areas chosen for this study had no effect on auditory habituation. The results suggest that the tectofugal and thalamofugal pathways have different roles in the lateralization of visual functions. The forebrain region which receives input from the thalamofugal visual system has a lateralized role in categorising pebbles as different from food grains, and also a role in controlling attack and copulation responses. The forebrain region which receives input from the tectofugal visual system is involved in the control of attack responses only.

Blockade of CCK(B) but not CCK(A) receptors before and after the stress of predator exposure prevents lasting increases in anxiety-like behavior: implications for anxiety associated with posttraumatic stress disorder

Lasting increases in anxiety-like behavior (ALB) in rodents in the elevated plus maze have been reported to follow brief (5 min) exposures to a cat. This study examined the role of CCK(A) and CCK(B) receptors in lasting increases in ALB following exposure to a cat. Block of CCK(B) receptors 30 min before and after cat exposure prevented increases in ALB assessed 1 week later in the elevated plus maze. Blocks of CCK(A) receptors either before or after cat exposure were without effect on increases in ALB measured 1 week later. Changes in activity or exploration could not account for the results. Effects of cat exposure on ALB, startle, and corticosteroid levels have been proposed as a model of affective disorder in posttraumatic stress disorder (PTSD). Implications of these findings for mechanisms of initiation of anxiety in PTSD and posttrauma pharmacological prophylaxis in PTSD are discussed.

Early NMDA receptor blockade impairs defensive behavior and increases cell proliferation in the dentate gyrus of developing rats

These studies were conducted to determine whether (a) early N-methyl-D-aspartate (NMDA) receptor blockade impairs defensive behavior and (b) a relationship exists between defensive behavior and the production of granule cells in the dentate gyrus. Rat pups were treated with different doses of the NMDA receptor antagonist CGP 43487 on postnatal day (P) 5, and their behavior was observed following exposure to an unfamiliar adult male rat, a potential predator, on P13, P20, and P30. A dose-dependent impairment in freezing behavior was observed in rat pups treated with NMDA receptor antagonist on P13, P20, but not P30. Moreover, a dose-dependent increase in the number of (3)H-thymidine-labeled cells in the dentate gyrus was detected following CGP 43487 treatment, suggesting that an inverse relationship exists between cell proliferation and freezing behavior in rat pups following NMDA receptor blockade.

Changes in the structure of the agonistic behavior of mice produced by D-amphetamine

The effects of three acute doses of D-amphetamine (0.25, 1.5 and 3 mg/kg) were studied in a model of isolation-induced aggression in male mice. An ethopharmacological analysis of the encounters was carried out, which studied the frequency, total and mean duration of different behavioral categories, including the temporal distribution of attacks and the duration of inter-attack intervals. The results show a reduction in the total and mean duration of the Attack category and an increase in motor activity manifested by longer durations, both total and mean, of Non Social Exploration and shorter Immobility. The temporal analysis of Attack revealed an increase in the number of very short (< 15 s) inter-attack intervals and a temporal redistribution of the attacks to later in the course of the social encounters. These results confirm for a complex behavior such as aggression, that D-amphetamine, even at low doses, favors a fragmentation and repetition of motor routines with a simultaneous reduction in the influence of environmental cues on the control of behavior.

[Agonistic behavior during stress inhibits the development of learned helplessness in rats]

Male Wistar rats were exposed to inescapable shock in individual chambers (IS), or shocked in pairs (PIS). The latter rats were fighting during the shock administration. In 48 hrs, all the rats were subjected to escape/avoidance task in a shuttle-box. Failures increased significantly in the IS rats as compared with the PIS and intact rats. Dexamethasone administration decreased the plasma corticosterone level in the latter groups, but not in the IS rats. The findings suggest that an inescapable shock induces no learned helplessness in rats having an opportunity of agonistic interaction during the shock. The findings suggest also a stress-protective effect of agonistic contacts under averse conditions.

Diazepam enhances conditioned defeat in hamsters (Mesocricetus auratus)

Male hamsters that have been repeatedly defeated by larger, aggressive males subsequently flee from, rather than attack, nonaggressive male intruders that are introduced into their home cages. We have referred to this generalization of flight in response to nonaggressive intruders as "conditioned defeat" (CD). In an attempt to reverse CD pharmacologically, diazepam (DZP) was administered to hamsters at two different time points relative to CD acquisition and subsequent response generalization tests, which involved the exposure of subjects to nonaggressive intruders (NAIs). In Experiment 1, subjects were given a single injection of one of 4 doses of DZP (0, 2, 6, or 20 mg/kg) immediately following CD acquisition. Twenty-four hours later, contrary to expectations, subjects that had received the 6 mg/kg dose displayed elevated flight responses in the presence of an NAI. Flight responding declined over days except in subjects that received the highest dose. In the second experiment, hamsters were administered a single injection of either 0, 2, or 6 mg/kg DZP just prior to a response generalization test occurring 24 h following CD training. Flight responses to the NAIs were again exaggerated in subjects that were given the 6 mg/kg dose, an effect that persisted several days without further drug administration. The present findings suggest the possibility that benzodiazepines can potentiate fear responses under certain stressful conditions.

Effects of the 5-HT1A antagonist (+)-WAY-100135 on murine social and agonistic behavior

Compounds previously identified as 5-HT1A antagonists have subsequently been demonstrated to possess partial agonistic properties in models assessing somatodendritic autoreceptor function. This study examined the influences of (+)-WAY-100135, claimed to be the first selective 5-HT1A antagonist, on offensive behaviour in male mice. Employing a resident-intruder paradigm, administration of (+)-WAY-100135 (1.0-10.0 mg/kg s.c.) enhanced elements of resident offensive behaviour at 2.5 and 5.0 mg/kg but reduced such behaviour at 10.0 mg/kg. In comparison, resident defensive postures remained unchanged except for a significant increase in defensive sideways behaviour at 10.0 mg/kg. These effects were accompanied by reduced rearing behaviour across the dose range tested. Attend/approach behaviour was significantly reduced at the lowest, but increased at the highest, doses tested. Such results may reflect response competition rather than concomitant motor impairment. Given the dynamic behavioural interactions occurring in this paradigm, the increased offensive behaviour of the resident mice leads to enhanced defence and counter-attack by the intruder conspecifics. The results are discussed with reference to the current literature concerning the behavioural effects of other 5-HT1A antagonists.

Kainic acid versus carbachol induced emotional-defensive response in the cat

The emotional-defensive response (EDR) and accompanied neurotoxic and electroencephalographic (EEG) effects induced by injection of kainic acid (KA, 0.1; 0.2 microgram) into the midbrain periaqueductal grey region (PAG) and antero-medial hypothalamus (AMH) in the cat were examined and compared with EDR and accompanied neurotoxic and EEG effects induced by injection of cholinergic agent, carbachol (CCH), into the same sites. The injections of KA (0.2 microgram) into the PAG induced EDR which closely resembled the defense behavior typically observed after administration of CCH. However, in contrast to CCH-induced EDR, the defensive response induced by KA was found to be accompanied by EEG symptoms of epileptiform activity in the limbic cortex and a massive cell loss in the site of injection. It is proposed that KA-induced EDR and seizure activity may have resulted from the activation of different cell populations localized either in the vicinity of the injection (i.e., PAG region) and in the area remote from the injection loci, the limbic cortex. KA induced activation of PAG neuronal network would trigger the 'local response' (emotional-defensive response) and produce a remote effect-epileptiform activity.

Long-term chronic treatment with stanozolol lacks significant effects on aggression and activity in young and adult male laboratory mice

1. Repeated doses of the anabolic-androgenic steroid stanozolol were assessed for their effects on agonistic behavior, motor activity, and body weight in both young and adult male laboratory mice. 2. Stanozolol significantly increased weight gain in young, but not older subjects, especially at the highest doses. 3. There were, however, no significant differences in motor activity or in ethologically assessed social behavior (including aggression) in young or adult mice.

Influence of neuropeptides on the processes of higher nervous activity in primates. The action of cyclic analogs of enkephalins on the behavior of the lower monkeys

The effect of two cyclic enkephalin analogs (IVS-43 and IVS-46) on the group and individual behavior of rhesus macaques and hamadryas baboons has been studied. A pronounced influence of IVS-46 on competitive and operant goal-directed behavior of the monkeys was identified.

Differential effects of CGS 12066B and CP-94,253 on murine social and agonistic behaviour

Although it has been previously proposed that 5-HT1B agonism specifically attenuates rodent agonistic behaviour, more recent investigations have indicated that such influences may be ancillary to an anxiogenic effect. The present study examined the influences of two 5-HT1B agonists, CGS 12066B and CP-94,253, on murine agonistic behaviour. In a resident-intruder paradigm, CGS 12066B (0.5-5.0 mg/kg) decreased resident offensive aggression, social interest, and exploration while dose-dependently enhancing defensive behaviours across the dose range tested. CP-94,253 (2.5-10.0 mg/kg) also reduced elements of resident offensive behaviour whereas defensive behaviours were largely unchanged. Some elements of resident nonsocial and social behaviour were enhanced at 2.5 and 5.0 mg/kg but decreased at 10.0 mg/kg. The behavioural profile of CP-94,253, but not CGS 12066B, supports the proposal that 5-HT1B receptors inhibit agonistic behaviour without concomitant sedative or anxiogenic effects. Findings are discussed in relation to 5-HT1A/1B/2C receptors involved in agonistic behaviour and anxiety.

Prednisolone blocks extreme intermale social aggression in seizure-induced, brain-damaged rats: implications for the amygdaloid central nucleus, corticotrophin-releasing factor, and electrical seizures

In two separate blocks of experiments, the extreme within-group aggression which is typically associated with limbic seizure-induced brain injury in male rats was attenuated or abolished within two days by the administration of prednisolone in the water supply. The effect was specific to the aggression and was not simulated by dexamethasone. The results support the hypothesis that interference with inhibitory inputs to the central nucleus of the amygdala and the enhanced stimulation by corticotrophin-releasing factor facilitates physical aggression within groups of male rats. Potential relevance to curbing aggression ("conflict") between groups of male humans is discussed.

Blood pressure via telemetry during social confrontations in rats: effects of clonidine

Male Long-Evans rats were implanted with blood pressure transmitters and introduced as intruders for 60 min into the home cage of a reproductively active resident male rat. Physical interaction ended after 3-5 min when the intruder displayed clear submissive behaviors. A protective wire cage was placed over the intruder until the animal was returned to its home cage. Systolic (+29.3 +/- 3.6 mmHg) and diastolic (+25.7 +/- 3.7 mmHg) blood pressures, pulse pressure (+7.3 +/- 2.0 mmHg), and heart rate (+129.0 +/- 12.6 BPM) peaked in the intruder rats during the defeat and did not fully return to control levels until return to the home cage. These acute changes as well as the heart rate and blood pressure baselines did not change when the confrontations were repeated on alternating days for a maximum of three trials per week. Pretreatment with clonidine (0.01, 0.03, 0.06, and 0.1 mg/kg) led to a dose-dependent decrease in the heart rate response but blood pressure was reduced similarly for all doses. We conclude that acute "defeat" can lead to an abrupt, large increase in blood pressure and heart rate in normotensive, Long-Evans rats that is sustained even in the absence of physical contact with the threatening resident. This response is diminished but not prevented by administration of clonidine.