Neuroendocrine and behavioral response to social confrontation: residents versus intruders, active versus passive coping styles

We investigated in the present study the neuroendocrine correlates in intruder and resident rats of a social confrontation. Adult male Wistar rats (intruders) were introduced into the home cage of a well-trained resident to induce characteristic agonistic interactions including physical attacks prior to separation by a wire mesh. The hypothalamic-pituitary-adrenal (HPA) axis activity and the intrahypothalamic release of arginine vasopressin (AVP) were monitored via chronically implanted jugular venous catheters and microdialysis probes aimed at the hypothalamic paraventricular nucleus (PVN), respectively. Based on the behavioral data collected during the 30-min confrontation, intruders and residents were additionally classified into two different subgroups: intruders which showed almost no freezing behavior (active copers) versus those showing pronounced freezing behavior (passive copers) and residents which were either predominantly aggressive or non-aggressive. The neuroendocrine data show that social confrontation caused a significantly increased secretion of the adrenocorticotropic hormone (ACTH) into plasma in both intruder subgroups, independently of their coping strategy. In contrast, plasma ACTH in residents was increased in response to social confrontation in non-aggressive animals only, whereas aggressive residents failed to mount an ACTH response. Interestingly, plasma AVP decreased in response to social confrontation in active intruders. As measured in microdialysates, the two groups of residents and passive intruders failed to show significant changes of intra-PVN release of AVP. In contrast, an increased release of this neuropeptide within the PVN could be monitored for active intruders. The data of the present study suggest that the different interpretation of an aversive encounter results in differences in the neuroendocrine response and intrahypothalamic vasopressinergic signaling in intruders versus residents.     

Effect of the activation of GABA A, benzodiazepine, and D2 dopamine receptors on the passive avoidance extinction in submissive and aggressive mice

The effect of activation of GABAA, benzodiazepine, and D2 dopamine receptors on extinction of passive avoidance and their dependence on the initial state of aggressive and submissive C57BL/6J mice were studied. It was found that in mice with the submissive stereotype of behavior produced by experience of defeats in daily agonistic confrontations, extinction of the conditioned reaction occurred faster than in control mice. The activation of D2 receptors by quinpirole and of benzodiazepine receptors by medasepam before training restored the retrieval of the memory trace. A prolongation of extinction was observed in aggressive mice in comparison with control and submissive animals, and activation of GABAA by muscimol and benzodiazepine receptors by medazepam led to acceleration of extinction. Activation of D2 receptors was ineffective. Thus, the difference in initial behavioral strategy determined both the development of extinction of the passive avoidance and variability of participation of D2, GABAA, and benzodiazepine receptors in the maintenance of availability of the memory trace to retrieval.     

Interaction of stereotypic behavior in mice and effects of activation of presynaptic dopaminergic receptors in extinction and amnesia

Using the methods of agonistic confrontations of C57BL/6J mice for formation of aggressive and submissive types of behavior and passive avoidance training we investigated the influence of activation of dopamine presynaptic receptors on retention of a memory trace during extinction and amnesia. Autoreceptor agonist (+)3PPP (2 mg/kg, intraperitoneal injection) impaired learning and retention of a memory trace during extinction and strengthened the amnestic influence of animal detention in a dangerous compartment on the training day only in aggressive mice. In submissive mice, (+) 3PPP improved the retrieval of passive avoidance during extinction but did not change the development of amnesia. This work was the first to demonstrate that the effects of dopamine autoreceptor activation on the passive avoidance retrieval depend on behavioral stereotype (aggressive or submissive). It is suggested that different basic states of the dopaminergic system in aggressive and submissive mice are responsible for different (+) 3PPP effects.     

Behavioural characterisation of young adult transgenic mice overexpressing galanin under the PDGF-B promoter

The behavioural phenotype of transgenic mice (3- to 5-months old) overexpressing galanin (GalOE) under the platelet-derived growth factor B (PDGF-B) promoter was evaluated in a battery of tests, including open field, locomotor cages, light-dark exploration test, elevated plus-maze and the Porsolt forced swim test. Learning and memory were assessed in the passive avoidance and the Morris water maze tasks. No difference between genotypes was found in exploratory activity in the open field. GalOE mice showed a slight increase in spontaneous locomotor activity assessed in the locomotor cages, but the amphetamine-induced increase in locomotor activity was somewhat lower in GalOE mice. Anxiety-like behaviour in the three different tests including open field, light-dark exploration and elevated plus-maze did not differ between genotypes. In the Porsolt forced swim test, GalOE mice displayed an increased time of immobility, indicative of increased learned helplessness possibly reflecting increased stress-susceptibility and/or depression-like behaviour. GalOE mice showed normal learning and memory retention in the passive avoidance and the Morris water maze tasks. These data support the hypothesis that galanin may have a role in functions related to mood states including affective disorders.     

The effect of administering corticoliberin into the striatum on the open-field and shuttle-box behaviors of KHA and KLA strain rats]

The effects of corticotropin-releasing hormone (CRH) injected into the dorsal neostriatum on the open-field and shuttle-box behavior were studied in rats with high (Koltushi high avoidance, KHA) and low (Koltushi low avoidance, KLA) capability for avoidance learning. The effects of this hormone on the behavior of these rat strains were different. In KLA rats with passive strategy of behavior the CRH injection led to a rapid locomotor activation in the open field, while the rats with active behavioral strategy (KHA) reacted to the injection by a significant decrease in locomotion and change for the passive mode of behavior. The same CRH effects on locomotion were obtained in the shuttle-box experiments. Moreover, in the KLA rats the neurohormone injection resulted in an improvement of avoidance learning in contrast to the KHA rats, in which CRH substantially impaired avoidance learning. The obtained evidence is discussed in terms of the important role of striatal CRH in the choice of behavioral strategy in stress.     

Inheritance of pathogenicity and cultural characters in Ceratocystis ulmi: hybridization of aggressive and non-aggressive strains

When British isolates of Ceratocystis ulmi were surveyed for compatibility type, both A- and B-types were found in the non-aggressive strain, but only the B-type in the aggressive strain. Single ascospore progeny from crosses between compatible aggressive and non-aggressive isolates showed a near-normal growth rate distribution, with a mean lying between the parents. Many grew either faster than the aggressive or slower than the non-aggressive parent. The progeny were highly variable in culture morphology and could not be classified in terms of the parental types. When inoculated into English elm they showed a marked skewness towards low pathogenicity. None approached the aggressive strain in pathogenicity. It is concluded that the above characters are under polygenic control, and that the aggressive strain could not arise from the non-aggressive by a simple mutation. The results suggest that the two strains may be reproductively isolated.     

Typological features of behavior and memory in Norway rats selected for absence of aggression toward a man

Features of behavior and retrieval of passive conditioned avoidance on a new and forgotten stimuli were compared in Wistar rats and Norway rats bred for the absence of aggression toward a man. As distinct from white rats, grey rats were characterized by low anxiety and high locomotor exploratory activity in the elevated plus maze and dark-light chamber. Norway rats demonstrated better avoidance performance with active defensive behavioral strategy than Wistar rats. Latent inhibition during conditioning with a previously forgotten situational stimulus was the same in both rat strains. The results are discussed in terms of the use of grey rats as a model for an in-depth analysis of the mechanisms of memory optimization.     

Extinction of passive avoidance response in various mouse strains

Dependence of the passive avoidance extinction dynamics on a mouse strain was shown. Mice C57BL/6J and AKR/J extinguished more quickly relative to DBA/2J, CBA/Lac and BALB/c, and this extinction was stable. Individual instability of extinction was characteristic of C3H/HeJ mice. Extinction of the passive avoidance in mice CBA/Lac and BALB/c was slower: with a delay in the beginning and prolonged retention of memory trace of the shock exposure. In DBA/2J mice, the extinction was impaired. These data suggest that DBA/2J, CBA/Lac and BALB/c mice constitute groups of risk with high predisposition to impairment of extinction of memory of aversive events, which is thought to be a symptom of a depressive-like state.     

The role of brain serotonin in the expression of genetically determined defensive behavior

The review summarizes the results of long-term studies on the role of the brain mediator serotonin and genetic predisposition to various types of defensive behavior. The involvement of the serotonergic brain system in the mechanisms of genetic control of both active and passive defensive responses has been established using silver foxes, Norway rats of S40 selection for low and high aggressiveness to humans, aggressive mice with genetic knockout of monoaminoxidase A, and S40 rats selected for predisposition to passive defensive response of freezing (catalepsy). The changes in the serotonergic 5-HT1A-brain receptors of rats genetically predisposed to different strategies of defensive behavior were similar. However, the activity of the key enzyme of serotonin biosynthesis and the brain structures, in which serotonin metabolism was altered, significantly differed with regard to the preferred strategy. The conclusion was drawn that the 5-HT1A-receptors and enzymes of serotonin metabolism in the brain are involved in implementing genetic control of defensive behavior. Expression of the 5-HT1A-brain receptors was suggested to determine the levels of fear and anxiety and, consequently, the predisposition to defensive behavior, whereas the preferred strategy of defensive response (active or passive defensive) depends on genetically determined features of serotonin metabolism in the brain structures.     

Vasopressin levels in peripheral blood and in cerebrospinal fluid during passive and active avoidance behavior in rats.

Vasopressin (AVP) levels were measured in plasma and cerebrospinal fluid (CSF) of rats during acquisition and retention of a passive avoidance response. Only 5 min after the onset of the retention session a significantly higher level of AVP was found in plasma of animals which displayed a long latency, as compared with the levels of animals which showed a weak passive avoidance response (short latencies), or no passive avoidance behavior at all (controls). Moreover no changes in plasma AVP levels were found in plasma of rats submitted to acquisition or extinction of an active avoidance response. It is suggested that, although an elevated plasma AVP level is associated with strong retention of a passive avoidance response the peripheral circulation as well as the CSF are of minor importance for the transport of this neuropeptide to its site of behavioral action.     

Neonatal androgen levels and avoidance learning in prepubescent and adult male rats

Neonatal male rats were injected with 1.25 mg of testosterone propionate (TP) and compared with oil-injected controls on the acquisition of an active and passive avoidance response at 25 days of age. The TP treated animals acquired the active avoidance response significantly faster than controls, but no differences were found between groups tested on the step-down passive avoidance task. The active-avoidance paradigm was repeated at 70 days of age, with experimental and control animals receiving the same neonatal treatment as the prepubescent subjects. Again the TP group showed facilitated acquisition of the active avoidance response. The TP treatment also produced an increase in activity levels and aversion threshold to footshock in the prepubescent animals. Therefore the active avoidance effect may be interpreted more parsimoniously as a reflection of these latter effects, rather than learning per se.     

Behavioral characteristics in mice with brain lesions induced by hypertonic saline

Behavioral and histopathological characteristics were studied in mice treated repeatedly with hypertonic saline. In passive avoidance response using a step-through-type shuttle box, the mice treated with hypertonic saline showed shorter latency than control mice. No changes were observed in active avoidance response using a two-way-type shuttle box, spontaneous motor activity or motor function. Histopathological examination revealed marked and frequent degeneration and loss of neurons in the hippocampus as compared with animals after single treatment. The animals with severe hippocampal lesions showed impairment of passive avoidance response. The present brain lesions resulting from repeated treatment with hypertonic saline in mice are considered to be a possible model for memory disorders caused by hippocampal lesions in humans.     

Extinction and amnesia in aggressive and submissive mice with various terms of agonistic interaction

Dependence of the passive avoidance retrieval on the duration of agonistic interactions was analyzed in C57BL/6J mice in procedures of extinction and amnesia during formation of aggressive and submissive behavioral stereotypes. The resistance to amnestic stimulation was lower in aggressive mice with 10-day experience of victories than in aggressive animals after 20 daily confrontations. Prolongation of extinction in aggressive mice and fast extinction in submissive animals did not depend on the number of agonistic interactions.     

Comparative analysis of haloperidol effects on passive avoidance retention in aggressive and submissive mice

The effects of haloperidol on retention of avoidance during its extinction in C57BL/6J mice were shown to depend on a behavioral stereotype (aggressive or submissive). In submissive mice, haloperidol (0.5 mg/kg) injected an hour before training stabilized retrieval of the conditioned reflex in repeated testings (up to 17 days) as compared to its fast extinction in control animals. In aggressive mice, on the contrary, haloperidol reduced the retention of the memory trace retrieval. It is suggested that divergent haloperidol effects on extinction of passive avoidance in mice with alternative behavioral strategies are determined by the features of organization of the mesolimbico-cortical dopaminergic system and emotional state, in particular, anxiety.     

The Role of Brain Serotonin in the Expression of Genetically Determined Defensive Behavior

The review summarizes the results of long-term studies on the role of the brain neurotransmitter serotonin in genetic predisposition to various types of defensive behavior. The involvement of the serotonergic brain system in the mechanisms of genetic control of both active and passive defensive responses has been established using silver foxes, Norway rats of S₄₀ selection for low and high aggressiveness to humans, aggressive mice with genetic knockout of monoaminoxidase A, and S₄₀ rats selected for predisposition to passive defensive response of freezing (catalepsy). The changes in the serotonergic 5-HT_1A brain receptors of rats genetically predisposed to different strategies of defensive behavior were similar. However, the activity of the key enzyme of serotonin biosynthesis and the brain structures, in which serotonin metabolism was altered, significantly differed with regard to the preferred strategy. The conclusion was drawn that the 5-HT_1A receptors and enzymes of serotonin metabolism in the brain are involved in implementing genetic control of defensive behavior. Expression of the 5-HT_1A brain receptors was suggested to determine the levels of fear and anxiety and, consequently, the predisposition to defensive behavior, whereas the preferred strategy of defensive response (active or passive defensive) depends on genetically determined features of serotonin metabolism in the brain structures.     

Modulation of behavior of mice of different genotypes by serotonin antibodies

The effect of active immunization with conjugated serotonin-protein on the "open-field" behaviour and passive avoidance conditioning was studied in genetically different mice strains (C57BL/6 and BALB/c). The obtained immunophysiological effects of serotonin antibodies depended on genetically determined characteristics of animal behaviour. Serotonin antibodies altered rearing and crossings of the "open-field" center and retention of passive avoidance learning in C57BL/6 mice. The active immunization with conjugated serotonin-protein of BALB/c mice resulted in modulation of the "open-field" latency and both training and testing of passive avoidance behaviour.     

Effect of forced swimming on the memory track retention in mice with various behavioral stereotypes

The effects of forced swimming on retrieval of the passive avoidance during its extinction were found to depend on aggressive and submissive behavior. In mice without generated behavioral stereotypes, swim stress applied before or after training stabilized retention of the memory trace retrieval. The similar improved influence of forced swimming on memory storage is revealed in submissive, but not aggressive mice. The increase of resistance against extinction under the swim stress can be connected to facilitation of emotional processes.     

妊娠期和哺乳期双酚A暴露对幼年子代小鼠焦虑和抑郁行为的影响

双酚A(bisphenol-A,BPA)对脑和行为发育的低剂量效应已引起广泛关注。本研究分别于妊娠最后2周和分娩后前2周母鼠灌胃BPA(0.4和4 mg/kg.d),然后以旷场、高架十字迷宫、明暗箱、镜子迷宫、强迫游泳和被动回避箱等模型,分别测试幼年期(生后21～28 d)子代小鼠的行为,探讨围生期不同阶段的BPA暴露对幼年仔鼠自发活动、探究、焦虑、抑郁和被动回避记忆等行为的影响。结果表明,围生期不同阶段的BPA暴露对这些行为的影响不同,主要表现为:妊娠期BPA暴露促进幼年仔鼠的活动性,减弱其焦虑状态,提高雄性仔鼠的探究能力,促进雌性仔鼠的被动回避记忆;哺乳期BPA暴露减少幼年仔鼠的活动性,但对其焦虑行为的影响相对较弱,不影响仔鼠的探究能力和被动回避记忆;而妊娠期和哺乳期BPA暴露均加剧幼年仔鼠的抑郁行为。以上结果提示,妊娠期和哺乳期BPA暴露均可影响幼年仔鼠的焦虑、抑郁、被动回避记忆等多种行为,而妊娠期可能是BPA影响的更敏感时期。     

Adult-born hippocampal neurons promote cognitive flexibility in mice

The hippocampus is involved in segregating memories, an ability that utilizes the neural process of pattern separation and allows for cognitive flexibility. We evaluated a proposed role for adult hippocampal neurogenesis in cognitive flexibility using variants of the active place avoidance task and two independent methods of ablating adult-born neurons, focal X-irradiation of the hippocampus, and genetic ablation of glial fibrillary acidic protein positive neural progenitor cells, in mice. We found that ablation of adult neurogenesis did not impair the ability to learn the initial location of a shock zone. However, when conflict was introduced by switching the location of the shock zone to the opposite side of the room, irradiated and transgenic mice entered the new shock zone location significantly more than their respective controls. This impairment was associated with increased upregulation of the immediate early gene Arc in the dorsal dentate gyrus, suggesting a role for adult neurogenesis in modulating network excitability and/or synaptic plasticity. Additional experiments revealed that irradiated mice were also impaired in learning to avoid a rotating shock zone when it was added to an initially learned stationary shock zone, but were unimpaired in learning the identical simultaneous task variant if it was their initial experience with place avoidance. Impaired avoidance could not be attributed to a deficit in extinction or an inability to learn a new shock zone location in a different environment. Together these results demonstrate that adult neurogenesis contributes to cognitive flexibility when it requires changing a learned response to a stimulus-evoked memory. ? 2012 Wiley Periodicals, Inc.     

Increased food intake by neuropeptide Y is due to an increased motivation to eat

Neuropeptide Y (NPY), administered intracerebroventricularly, is a potent orexigenic agent. To determine if NPY-induced eating represented an increase in motivation to eat (e.g., hunger) rather than pathological or stimulus-bound eating, we determined its effect on eating in three paradigms, including lever press, appetitive passive avoidance and quinine-adulterated milk. NPY-injected mice consumed more milk when required to work for it in a lever press apparatus and tolerated shock to the tongue for drinking milk. Increasing the dose of NPY also allowed mice to overcome a taste aversion for quinine-adulterated milk. Overall, these studies support the hypothesis that NPY causes a specific increase in the motivation to eat, rather than nonspecific or stimulus-bound behavior.