Involvement of kappa-opioid receptors in mechanisms of aggressive and submissive types of behavior in male mice

Effects of the kappa-opioid receptor agonist U-50.488H (0.0, 0.6, 1.25, 2.5 mg/kg. s.c., 30 min) on behavior of the winner with repeated experience of victories and the losers with repeated experience of social defeat in 20 daily agonistic confrontations as well as the control mice were investigated in the tests estimating exploratory activity (open-field) and communication (partition test). Different effects of drug on behaviors of animals with different social story were shown in both tests. In the losers, all doses of U-50.488H had anxiolytic effect, increasing the communication in the partition test. In the winners, the drug induced an increase of aggressive motivation. The control mice were less sensitive to the treatment. In the open-field test, U-50.488H increased the locomotor and exploratory activity in high anxious losers. Winners significantly differed in their reaction to drug treatment in most behavioral forms in comparison with the controls and losers. It was concluded that kappa-opioid receptors are specifically involved into mechanisms of formation of aggressive or submissive types of behaviors under positive or negative social experience.     

The study of exploratory behavior in CBA/Lac male mice under influence of positive and negative social interactions

The exploratory activity towards a new object placed in the home cage was studied in CBA/Lac male mice after their repeated daily social victories and defeats. After 10 daily social defeats, submissive mice displayed a significantly declined exploration of a new object, whereas aggressive mice with experience of 10 daily victories expressed only a mild decrease in exploratory activity (as compared to control). Twenty daily social defeats almost completely abolished exploratory behavior in submissive mice, whereas 20 daily victories resulted in the increased exploration of a new object in aggressive mice. It is suggested that repeated social defeats associated with the negative psychoemotional state lead to the development of a pronounced exploratory motivational deficit. On the other hand, the experience of repeated daily aggression forms the enhanced motivational excitement that prevents a relevant response to a neutral stimulus.     

Modifying effect of the repeated experience of agonistic confrontations on effect of naltrexone in male mice

In mice with different experience of agonistic confrontations: victories or social defeats during 3 and 10 days (T3 and T10 winners and T3 and T10 losers, resp.), T10 winners displayed a lesser aggression and a more hostile behaviour than T3 winners. Naltrexone dose-dependently decreased attacks in the T3 winners and did not affect aggressive grooming, diggings, autogrooming, and exploratory activity. Naltrexone was ineffective in T10 winners. The naltrexone effects were similar in T3 and T10 losers and its high and low doses contrarily affected different parameters of submissive behaviour. The repeated experience of agonistic confrontations seems to modify the naltrexone effects depending on a neurochemical background, differing in winners and losers.     

The strategy of submissive behavior in male mice: the effect of the genotype and the experience of preceding agonistic encounters]

The male mice of two strains with experience of 2 or 10 defeats in intermale agonistic confrontations significantly differ in pattern of submissive behavior (balance of upright and sideways defensive postures, withdrawal, freezing, "on the back" posture). In mice with experience of 20 defeats genetic differences have not been found. The acquisition of consequent experience of defeats does not change the pattern of CBA mice submissive behavior, but significantly increases the share of immobile submissive postures in behavior of C57BL mice. Among submissive males of C57BL strain animals with more active strategy of behavior keep capability for aggressive response to weaker partner. The influence of genotype and previous social contact experience on formation of adaptive in experimental situation strategy of submissive behavior is discussed.     

The neurochemical control of aggression and submission]

Neurochemical mechanisms of agonistic behaviour in different models of aggression are discussed. The effects of aggression and submission experience in 10 mice intermale confrontations under conditions of sensory contact on the levels of brain neurotransmitters and their metabolites were investigated in 7 brain areas. The values obtained in aggressive and control, or submissive and control, animals were compared. In this comparison neurochemical alterations specific for aggressive or submissive behaviours, or nonspecific became apparent. The long experience of victories leads to activation of dopaminergic system through DA catabolism which leads to DOPAC formation. The long experience of defeats increases the 5HT metabolism and decreases NA level in some brain areas. The dopaminergic system of Nucleus accumbens and midbrain are nonspecifically activated in both aggressive and submissive animals. The investigation of values obtained in animals with conversion of behavioural type (after defeat of previously aggressive animals and/or display of aggressive reaction by previously submissive mice) allowed to find many significant differences between aggressive, submissive and "converted" males; in particular the amygdala is the site of opposite changes in 5HT system during inversion of aggressive or submissive behaviours. The above data evidence for the specific role of transmitter systems and brain structures in maintaining or inversion of different types of agonistic behaviour.     

Effects of repeated experience of aggression on aggressive motivation and development of anxiety in male mice

The sensory contact technique allows an aggressive type of behavior to be formed as a result of repeated experience of social victories in daily agonistic confrontations. In mice of the low-aggressive and high-emotional CBA/Lac strain repeated positive fighting experience increases plus-maze anxiety. Behavioral reactivity of males to other conspecifics in the partition test (which measures aggressive motivation) significantly rises. It is concluded that repeated experience of aggression provokes the development of anxiety in male mice. The results suggest that level of anxiety and its behavioral realization depend on duration of aggressive experience and genetic strain.     

Catatonia as an element of submissive behavior in mice during interspecies agonistic interactions

A catatonia-like state was elicited in male mice with different experience of social interactions, by pinch of scruff of the neck in a suspended state. In submissive males with long experience of defeat the total time of catatonia reaction during test is considerably greater than in aggressive individuals with a long experience of victories. The change of the social status of the individuals resulting from agonistic interactions leads to a change of the catatonia reaction: manifestation of submissive behaviour is accompanied by an increase of total time of catatonia reaction in the test, the aggressive behaviour is accompanied by its decrease.     

Development of anhedonia under negative experience of social confrontations in male mice

Possible development of anhedonia in male mice under chronic stress produced by social confrontations was investigated. Cheese, instead of traditional sucrose solution, was used as a positive reinforcement. It has been shown that the controls, the winners with repeated experience of aggression accompanied by victories and the losers with repeated experience of social defeats, irrespective of their social status, preferred to eat cheese, but not pellets, under the free choice conditions--80% of total food. After three days of cheese deprivation, the least food motivation and the least level of cheese consumption were observed in the losers as compared with the controls and winners. Influence of social stress as well as negative psychoemotional state produced by social defeats, on development of anhedonia as a symptom of major depression, is discussed.     

Effect of the D1-receptor antagonist SCH-23390 on the individual and aggressive behavior in male mice with various aggression experience

It has been shown that dopaminergic systems are involved in mechanisms of aggressive behavior. Effects of SCH 23390 (dopamine Di receptors antagonist. 0-1 mg/kg, i/p, 30 min) on aggressive and individual behaviors were studied in male C57BL/6J mice with different experience of aggression. SCH 23390 reduced aggressive attacks in animals without preliminary experience of aggression. However total time of hostile behavior (sum of the total time of attacks, aggressive grooming and diggings) didn't changed. No significant effects on behaviors were found in mice with long (20 days) repeated experience of aggression. It was supposed that long aggressive experience produces pharmacological desensitization of Di receptors as a result of enhanced dopaminergic activity shown earlier in aggressive animals.     

Evaluation of introduction procedures in captive chimpanzees

Chimpanzee introductions can be stressful and even dangerous for the individuals involved, and different facilities use different approaches to group formation. However, little empirical evidence has been available to evaluate the different factors related to successful or unsuccessful chimpanzee introductions. This study evaluated a variety of factors, such as age, sex, previous experience, and the behavior displayed during the initial introduction period, to determine any influence on the outcome of the introduction in 165 dyadic introduction events. The direct introduction of one chimpanzee to a group or to another individual resulted in an overall success rate of 86.7%. The first few social interactions were characterized by more aggressive and submissive behavior than afffiliative behavior, but this trend was quickly reversed. Unsuccessful outcomes were more common if wounding occurred, if either individual was male, and if the newcomer had high levels of submissive behavior. Among male chimpanzees, the behaviors during the first 10 min of the introductions were characterized by more submissive behavior of the newcomer and more aggressive behavior of the introduction partner. The frequency of aggression by the introduction partner was higher when the newcomer was introduced to one chimpanzee at a time rather than to the group as a whole. This information may have important consequences for how we view chimpanzee group formation, and factors such as previous experience and aggression may be less important than the method of introduction and the level of submissive behavior. Zoo Biol 16:335–342, 1997. © 1997 Wiley-Liss, Inc.     

The development of catatonic reactions in male mice of CBA/Lac strain: the effect of repeated experience of aggression and submission

The development of catatonic reactions with rigid muscle tension due to stimulation of the skin at the scruff (catatonia-"pinch" test) and wax muscle plasticity (repeated pinch-induced catalepsy displayed on the parallel bars--BAR-test) was investigated in aggressive and submissive CBA/Lac male mice with repeated experiences of social victories (winners) or defeats (losers), accordingly. The expression of catatonic-like state in "pinch" test was significantly more in the losers after 20 daily agonistic confrontations in comparison with the winners. The catalepsy in the BAR-test was increased in animals with experience of agonistic confrontation in comparison with the controls, however expression of catalepsy reaction depended on kind and duration of agonistic interactions. The pronounced freezing predominated in the free behavior of the losers and, on the contrary, the winners demonstrated the abnormal undirected jumping. It was suggested that two contrast forms of catatonic syndrome accompanying by development of akinesia- or hiperkinesia-like states, are developed in the defeated and victorious (accordingly) mice of cataleptic CBA/Lac strain.     

Neurobiological correlates premeditated (learned) aggression: seeking new experimental approaches]

Theoretical possibility of experimental modeling of learned (premediated) aggression developing in human after experience of aggression is considered. The sensory contact technique increases aggressiveness in male mice and allows aggressive type of behavior to be formed as a result of repeated experience of victories in daily agonistic confrontations. Some behavioral domains confirm the development of learned aggression in males similar to those in humans. The features are: repeated experience of aggression reinforced by victories; elements of learned behavior after period of confrontations; intent, measured by increase of the aggressive motivation prior agonistic confrontation; decreased emotionality estimated by parameters of open field behavior. Relevant stimuli provoke demonstration of aggression. This review summarized data on the influence of positive fighting experience in daily intermale confrontations on the behavior, neurochemistry and physiology of aggressive mice (winners). This sort of experience changes many characteristics in individual and social behaviors, these having been estimated in different tests and in varied situations. Some physiological parameters are also changed in the winners. Neurochemical data confirm the activation of brain dopaminergic systems and functional inhibition of serotonergic system in winners under influence of repeated experience of aggression. The expression of the neurochemical and behavioral changes observed in winners has been found dependent on the mouse strain and on the duration of their agonistic confrontations. Similarities in mechanisms of learned aggression in humans and mice are considered.     

Rats Benefit from Winner and Loser Effects

Prior fighting experience of opponents can influence the outcome of conflicts. After a victory, animals are more likely to win subsequent contests, whereas after a defeat animals are more likely to lose, regardless of the identity of opponents. The underlying mechanisms and the adaptive significance of these winner and loser effects are as yet unknown. Here, we tested experimentally whether agonistic behavior of male wild‐type Norway rats is influenced by social experience, and we investigated whether this might reduce fighting costs (duration of contest, risk of injury) in subsequent encounters. Rats were randomly assigned to receive either a losing or a winning experience and subsequently tested with unfamiliar, naïve opponents. We found that most rats with a winning experience won the subsequent encounter, and all rats with a losing experience lost the next contest. Previous winners attacked more rapidly in the subsequent encounter and reduced their aggressive behavior sooner; the contests were decided more quickly, which saved time and behavioral effort to the winner. Previous losers received less aggression in the next encounter, despite emitting fewer submissive ultrasonic calls than in the preceding contest, thereby reducing the risk of being injured by the opponent. Thus, anonymous social experience influenced rats’ subsequent behavior toward size‐matched, naïve, unknown social partners. Furthermore, apparently, they benefit from showing winner and loser effects in intraspecific contests by saving time, energy, and risk.     

Changes in the Expression of Monoaminergic Genes under the Influence of Repeated Experience of Agonistic Interactions: From Behavior to Gene

The role of genetic and environmental factors as well as brain neurochemistry in regulating aggressive and submissive behaviors in animals are considered. We present a review of data on changes in brain monoaminergic activity (synthesis, catabolism, receptors) and on the expression of monoaminergic genes under repeated daily agonistic confrontations in male mice. A repeated experience of aggression was shown to result in the total activation of the dopaminergic systems and the inhibition of the serotonergic one. This was accompanied by a decrease in the mRNA level of the cathecol-O-methyltransferase gene in the midbrain and an increase of the mRNA level of the dopamine transporter and tyrosine hydroxylase genes in the ventral tegmental area of aggressive male mice. Repeated experience of social defeats produced dynamic changes in the serotonergic system of some brain areas and an increase of the mRNA level of the serotonin transporter and monoamine oxidase A genes in the midbrain raphe nuclei. Theoretical and methodological possibilities of the proposed ethological approach for studying molecular mechanisms of agonistic behavior are discussed in the context of the fundamental problem of investigating the ways of regulation from behavior to gene.     

Gonadal hormones modulate the display of conditioned defeat in male Syrian hamsters

It has been widely reported that gonadal hormones influence the display of aggression in Syrian hamsters; conversely, much less is known about whether gonadal hormones modulate submissive/defensive behaviors in these animals. Following social defeat, male hamsters no longer display normal territorial aggression but instead display submissive/defensive behavior in the presence of a smaller opponent, a phenomenon we have termed conditioned defeat (CD). The purpose of the present study was to examine the effect of gonadal hormones on the display of CD in male hamsters. In Experiment 1, males were castrated or sham-operated. The castrated males were significantly more submissive following social defeat relative to their intact counterparts. The increased submissive behavior in the castrated males during CD testing was particularly surprising, given the fact that they were attacked significantly less during CD training. In Experiment 2a, males were castrated and given hormone replacement. Castrated males treated with testosterone or dihydrotestosterone displayed significantly less submissive behavior following social defeat than did those treated with cholesterol or estradiol. Finally, in Experiment 2b, there was no effect of hormone replacement on aggressive behavior in non-defeated hamsters suggesting that the decrease in submissive behavior in males treated with dihydrotestosterone or testosterone is specific to being previously defeated. Taken together the data indicate that the presence of androgens reduces the display of submission in defeated male hamsters. More importantly, these findings suggest that androgens may have a protective effect against the development of depression-like or anxiety-like behaviors following exposure to an ethologically relevant stressor.     

Competition for limited environmental resources on the social dominance model in laboratory mice

Asymmetry of social rank in the competition for food and female was studied using the social dominance model with only two male mice. Marking activity was recorded as a useful indicator of the social status. Social rank was determined by asymmetry in aggressive behavior. A food test was presented for 10 min daily within 5 days of the experiment, whereas a sexual test was performed only on the 5th day for 30 min. Marking behavior was estimated twice: before the first interaction and on the 4th day of the experiment. The competition for food was accompanied by active attacks, escapes, vertical defense postures, and sniffing. The level of aggression, sniffing, and food activity was higher in dominant than submissive males. Time course of aggressive, defensive, and sniffing behaviors was characterized by maximum scores in the period of formation of social hierarchy; however, the rate of food activity in this period was low and increased only to the 4th day. Introduction of a receptive female into the male group with the stable social hierarchy stimulated the intermale aggression, defensive and sniffing behaviors. Dominant males were characterized by a greater number of victories over and sniffing contacts with both male and female. Marking activity was also more intense in dominants. Thus, significant unidirectional rank differences in agonistic, sniffing, food, sexual, and marking behaviors were shown on the social dominance model with the minimum number of partners.     

Changes in the expression of monoaminergic genes under the influence of repeated experience of agonistic interactions: from behavior to gene

The role of genetic and environmental factors as well as brain neurochemistry in regulating aggressive and submissive behaviors in animals are considered. We present a review of data on changes in brain monoaminergic activity (synthesis, catabolism, receptors) and on the expression of monoaminergetic genes under repeated daily agonistic confrontations in male mice. A repeated experience of aggression was shown to result in the total activation of the dopaminergic system and the inhibition of the serotonergic one. This was accompanied by a decrease in the mRNA level of the catechol-O-methyltransferase gene in the midbrain and an increase of the mRNA level of the dopamine transporter and tyrosine hydroxylase genes in the ventral tegmental area of aggressive male mice. Repeated experience of social defeats produced dynamic changes in the serotonergic system of some brain areas and an increase of the mRNA level of the serotonin transporter and monoamine oxidase A genes in the midbrain raphe nuclei. Theoretical and methodological possibilities of the proposed ethological approach for studying molecular mechanisms of agonistic behavior are discussed in the context of the fundamental problem of investigating the ways of regulation from behavior to gene.     

Disruption of the vasopressin 1b receptor gene impairs the attack component of aggressive behavior in mice

Vasopressin affects behavior via its two brain receptors, the vasopressin 1a and vasopressin 1b receptors (Avpr1b). Recent work from our laboratory has shown that disruption of the Avpr1b gene reduces intermale aggression and reduces social motivation. Here, we further characterized the aggressive phenotype in Avpr1b -/- (knockout) mice. We tested maternal aggression and predatory behavior. We also analyzed the extent to which food deprivation and competition over food increases intermale aggression. We quantified defensive behavior in Avpr1b -/- mice and later tested offensive aggression in these same mice. Our results show that attack behavior toward a conspecific is consistently reduced in Avpr1b -/- mice. Predatory behavior is normal, suggesting that the deficit is not because of a global inability to detect and attack stimuli. Food deprivation, competition for food and previous experience increase aggression in both Avpr1b +/+ and -/- mice. However, in these circumstances, the level of aggression seen in knockout mice is still less than that observed in wild-type mice. Defensive avoidance behaviors, such as boxing and fleeing, are largely intact in knockout mice. Avpr1b -/- mice do not display as many 'retaliatory' attacks as the Avpr1b +/+ mice. Interestingly, when territorial aggression was measured following the defensive behavior testing, Avpr1b -/- mice typically show less initial aggressive behavior than wild-type mice, but do show a significant increase in aggression with repeated testing. These studies confirm that deficits in aggression in Avpr1b -/- mice are limited to aggressive behavior involving the attack of a conspecific. We hypothesize that Avpr1b plays an important role in the central processing that couples the detection and perception of social cues (which appears normal) with the appropriate behavioral response.     

Characteristics of the reaction of submissive mice to distant zoosocial stimuli

In aggressive and submissive mice well-experienced in victories and defeats, the reaction was studied to another male in neighbour section of "home" cage divided by transparent partition with holes. The activity of submissive mice near the partition was significantly lower than that of control animals without experience of agonist contacts or aggressive. Submissive mice did not react to the appearance of unknown smell in the neighbouring section while the animals of other studied groups sharply increased their activity near the partition. It is suggested that long experience of defeat leads to inhibition of perception of specific zoosocial (olfactory) stimuli triggering manifestation of aggressive reaction to another individual.     

Learning of submissive behavior in mice: A new model

The experience of winning or loosing fights plays an important role in subsequent aggressive or submissive behaviors. In this study agonistic behavior of male mice was chosen to investigate learning mechanisms in the context of a biologically meaningful situation.An ICR mouse introduced into a group of five C57BL/6 mice was attacked by mice of high social status (Fighter, F), but not by lower ranking animals (Non-Fighter, NF). On this basis the following model was developed to study learning of submissive behavior. Day 1 (baseline trial): An ICR mouse was introduced to a single NF-C57 mouse. Few submissive behaviors (crouch) were observed in naive ICR mice upon contact with NF-C57 mice. Day 2 (learning trial): The same ICR mouse was defeated by an F-C57 mouse until it showed defensive upright posture upon approach. This criterion was reached after a mean latency of 3.5 min and after being exposed to a mean number of 14 bites. Day 3 (retest trial): The same pairs as on day 1 confronted each other. Without being attacked, the ICR mouse showed a significant increase of submissive behavior (crouch, defensive sideways and upright) upon mere contact with the NF-C57 mouse when compared to day 1 and to control mice on day 3. Controls, confronted on all three days with NF-C57 mice, showed no increase in submissive behaviors.The results are discussed in terms of acquisition, memory, retrieval and extinction of learned submissive behavior. It is suggested that the mechanisms underlying learning of submissive behavior include generalization of conditioning and specific extinction processes. The further use of the learning scheme to assess drug effects is illustrated.