delta9-tetrahydrocannabinol: antiaggressive effects in mice, rats, and squirrel monkeys.

delta9-Tetrahydrocannabinol, the most active constituent of marihuana, decreased species-specific attack behavior in mice, rats, and squirrel monkeys at doses (0.25 to 2.0 milligram per kilogram of body weight) that have no effects on other elements of the behavioral repertoire. Aggressive behavior was engendered in all three species by confronting a resident animal with an intruder conspecific. The present results contrast with the widely held belief that marihuana increases aggressive behavior.

Opioid-like analgesia in defeated mice.

Mice exposed to repeated attacks by other mice showed decreased nociception in response to radiant heat focused on their tails. This form of analgesia was blocked by centrally acting opiate antagonists and was not observed in morphine-tolerant mice; furthermore, mice repeatedly subjected to defeat. Mice of the CXBK strain, which respond weakly to morphine, displayed only moderate analgesia following defeat. These findings suggest that endogenous opioid-mediated analgesic mechanisms are readily activated by situations involving biologically significant forms of stress, such as defeat.

Female-specific decreases in alcohol binge-like drinking resulting from GABAA receptor delta-subunit knockdown in the VTA.

Binge drinking is short-term drinking that achieves blood alcohol levels of 0.08 g/dl or above. It exhibits well-established sex differences in GABAergic inhibitory neurotransmission, including extrasynaptic δ subunit-containing GABAA receptors (δ-GABAARs) that mediate tonic inhibition, or synaptic γ2-containing GABAARs which underlie fast, synaptic, phasic inhibition have been implicated in sex differences in binge drinking. Ovarian hormones regulate δ-GABAARs, further implicating these receptors in potential sex differences. Here, we explored the contribution of extrasynaptic δ-GABAARs to male and female binge-like drinking in a critical area of mesolimbic circuitry-the ventral tegmental area (VTA). Quantitative PCR revealed higher Gabrd transcript levels and larger tonic currents in the VTA of females compared to males. In contrast, male and female Gabrg2 transcript levels and measures of phasic inhibition were equivalent. Intra-VTA infusion of AAV-Cre-GFP in floxed Gabrd mice downregulated δ-GABAARs and decreased binge-like drinking in females. There was no significant difference in either male or female mice after GABAAR γ2 subunit reduction in the VTA following AAV-Cre-GFP infusion in floxed Gabrg2 mice. Collectively, these findings suggest sex differences and GABAAR subunit specificity in alcohol intake.

Essential roles for the Abl and Arg tyrosine kinases in neurulation.

The Abl and Arg tyrosine kinases play fundamental roles in the development and function of the central nervous system. Arg is most abundant in adult mouse brain, especially in synapse-rich regions. arg(-/-) mice develop normally but exhibit multiple behavioral abnormalities, suggesting that arg(-/-) brains suffer from defects in neuronal function. Embryos deficient in both Abl and Arg suffer from defects in neurulation and die before 11 days postcoitum (dpc). Although they divide normally, abl(-/-)arg(-/-) neuroepithelial cells display gross alterations in their actin cytoskeleton. We find that Abl and Arg colocalize with each other and with actin microfilaments at the apical surface of the developing neuroepithelium. Thus, Abl and Arg play essential roles in neurulation and can regulate the structure of the actin cytoskeleton.

Effect of 5-HT1B receptor agonists injected into the prefrontal cortex on maternal aggression in rats.

Serotonin (5-HT1B) receptors play an essential role in the inhibition of aggressive behavior in rodents. CP-94,253, a 5-HT1B receptor agonist, can reduce aggression in male mice when administered directly into the ventro-orbitofrontal (VO) prefrontal cortex (PFC). The objective of the current study was to assess the effects of two selective 5-HT1B receptor agonists (CP-94,253 and CP-93,129), microinjected into the VO PFC, on maternal aggressive behavior after social instigation in rats. CP-94,253 (0.56 microg/0.2 microL, N = 8, and 1.0 microg/0.2 microL, N = 8) or CP-93,129 (1.0 microg/0.2 microL, N = 9) was microinjected into the VO PFC of Wistar rats on the 9th day postpartum and 15 min thereafter the aggressive behavior by the resident female against a male intruder was recorded for 10 min. The frequency and duration of aggressive and non-aggressive behaviors were analyzed using ANOVA and post hoc tests. CP-93,129 significantly decreased maternal aggression. The frequency of lateral attacks, bites and pinnings was reduced compared to control, while the non-aggressive behaviors and maternal care were largely unaffected by this treatment. CP-94,253 had no significant effects on aggressive or non-aggressive behaviors when microinjected into the same area of female rats. CP-93,129, a specific 5-HT1B receptor agonist, administered into the VO PFC reduced maternal aggressive behavior, while the CP-94,253 agonist did not significantly affect this behavior after social instigation in female rats. We conclude that only the 5-HT1B receptor agonist CP-93,129 administered into the VO PFC decreased aggression in female rats postpartum after social instigation.

5-HT(1B) receptors, ventral orbitofrontal cortex, and aggressive behavior in mice.

RATIONALE: Systemic injections of 5-HT(1B) receptor agonists have been shown to have specific anti-aggressive effects in aggressive individuals. One site of action for these drugs is the 5-HT(1B) receptors in the ventral orbitofrontal cortex (VO PFC), an area that has been implicated in the inhibitory control of behavior and is a terminal region for 5-HT projections. OBJECTIVE: To assess the anti-aggressive effects of the 5-HT(1B) receptor agonist CP-94,253 when microinjected into the VO PFC (0.1, 0.56, and 1.0 microg/0.2 microl) or into the infralimbic prefrontal cortex (IL PFC; 1.0 microg/0.2 microl) in separate groups of aggressive resident male mice. To confirm the 5-HT(1B) receptor as the critical site of action for the anti-aggressive effects, the 5-HT(1B/D) antagonist GR-127,935 was microinjected at 10.0 microg/0.2 microl into the VO PFC. After recovery from surgery, the anti-aggressive effects of microinjected CP-94,253 were studied during 5-min resident-intruder confrontations that were recorded and analyzed. RESULTS: Microinjections of CP-94,253 (0.56 and 1.0 microg/0.2 microl) dose-dependently reduced the frequency of attack bites and sideways threats. This effect was behaviorally specific because non-aggressive motor activities were not significantly altered by the drug. In the IL vmPFC or in an area lateral to the VO PFC, CP-94,253 (1.0 microg/0.2 microl) did not have significant behavioral effects. CONCLUSIONS: The results highlight the 5-HT(1B) receptors in the VO PFC as a particularly important site for the inhibition of species-typical aggressive behavior in male mice.

Aggressive behavior, increased accumbal dopamine, and decreased cortical serotonin in rats.

Dopamine (DA) and serotonin have been implicated in the regulation of aggressive behavior, but it has remained challenging to assess the dynamic changes in these neurotransmitters while aggressive behavior is in progress. The objective of this study was to learn about ongoing monoamine activity in corticolimbic areas during aggressive confrontations in rats. Male Long-Evans rats were implanted with a microdialysis probe aimed at the nucleus accumbens (NAC) or medial prefrontal cortex (PFC); next, 10 min samples were collected before, during, and after a 10 min confrontation. Rats continued to display aggressive behavior while being sampled, and they performed two to six attack bites as well as 140 sec of aggressive acts and postures. Dopamine levels in NAC were significantly increased up to 60 min after the confrontation. Peak levels of 140% were achieved approximately 20-30 min after the confrontation. No concurrent changes in accumbal serotonin levels were seen during or after the confrontation. Dopamine and serotonin levels in PFC changed in the opposite direction, with a sustained decrease in serotonin to 80% of baseline levels during and after the confrontation and an increase in dopamine to 120% after the confrontation. The temporal pattern of monoamine changes, which followed rather than preceded the confrontation, points to a significant role of accumbal and cortical DA and 5-hydroxytryptamine in the consequences as opposed to the triggering of aggressive acts. The increase in accumbal DA in aggressive animals supports the hypothesis that this neural system is linked to the execution of biologically salient and demanding behavior.

Aggressive and social behavior after alprazolam withdrawal: experimental therapy with Ro 19-8022.

The aim of the present study was to ascertain whether withdrawal from alprazolam can increase anxiety-like and aggressive behavior during intra species conflict in mice and, if so, whether a partial benzodiazepine agonist Ro 19-8022 is able to reverse these behavioral changes without untoward effects such as sedation. An experimental model consisting of interactions of pairs of singly-housed male mice with non-aggressive group-housed male mice was used. Alprazolam (1 mg/kg) was given orally twice daily for 8 days and once on the 9th day. When withdrawn from alprazolam (3 days after the last dose), mice reduced social investigation and increased the incidence of aggressive behavior in comparison to the pre-withdrawal level. However, the increase of aggression was moderate and occurred only in subjects with low pre-treatment levels of aggression. Ro 19-8022 (10 mg/kg) significantly antagonized the decrease of social behavior and the increase of aggression after alprazolam withdrawal without causing sedation or ataxia.

Neurobiological mechanisms controlling aggression: preclinical developments for pharmacotherapeutic interventions.

Current pharmacotherapeutic approaches to the management of violent and aggressive behavior rely mostly on agents that act as receptor agonists or antagonists at subtypes of brain dopaminergic, GABAergic, and serotonergic receptors. Ethological experimental studies in animals have shown that drugs may modulate aggression by inhibiting motor activity, by distorting aggression-provoking or -inhibiting signals, by fragmenting behavioral sequences or temporal patterning, or by increasing the rate and intensity of aggressive acts. Evidence from animal studies points to large changes in selected brain dopamine, serotonin, and GABA systems during and following aggressive and defensive behavior. However, the specificity of drugs that are currently used to control aggressive behavior through their action as agonists or antagonists at subtypes of dopamine, serotonin or GABA receptors continues to be of concern. Similar to the effects of widely used traditional neuroleptics that nonselectively antagonize dopamine receptors, the range of behaviors which is suppressed by either D1 or D2 receptor antagonists is pervasive. At present, systemic administration of dopamine receptor antagonists in animal preparations does not target aggression-specific mechanisms. The GABAA/Benzodiazepine/Chloride ionophore receptor complex is implicated in the aggression-heightening effects of alcohol and benzodiazepines. Although early reports focused on the "taming" effects of benzodiazepine anxiolytics, low doses may enhance aggression in both animals and humans. Benzodiazepine antagonists block heightened aggression after low doses of alcohol or benzodiazepines. Agonists at certain 5-HT1 receptor subtypes such as eltoprazine are potently effective in reducing aggressive behavior of males and females of various animal species under conditions that promote charging offensive-type aggression, without adversely affecting nonaggressive components of the behavioral repertoire. However, recent reports indicate that eltoprazine and related compounds may potentiate anxiety reactions in rodents, and question the behavioral specificity of these substances. Opioid receptor antagonists modulate primarily physiological and behavioral responses of defense and submission. Defeated animals show tolerance to opiate analgesia and withdrawal responses upon challenge with opioid receptor antagonists. Defensive and submissive vocalizations are potently blocked by opioid peptides. Substances that target specific receptor subtypes at serotonergic, GABAergic and opioidergic synapses are most promising for the selective modification of aggressive, defensive and submissive behavior patterns.

Ultrasonic vocalizations in rat pups: effects of serotonergic ligands.

Ligands with varying intrinsic activity and selectivity for the various subtypes of the serotonin receptor were tested in the rat pup ultrasonic vocalization (USV) model, a putative animal model reflecting anxiety. USV were elicited by isolating rat pups from their mother and littermates by placing them on a warm (37 degrees C) or a cold (18 degrees C) plate. Concurrently, the negative geotaxic (NG) response and rectal temperature were determined to assess the potentially sedative and hypothermic effects of putative anxiolytics. USV were reduced at low doses and in both temperature conditions by the full 5-HT1A receptor agonists flesinoxan and 8-OH-DPAT (8-hydroxy-2-(di-n-propylamino) tetralin.HBr) and the partial 5-HT1A receptor agonists buspirone, ipsapirone and BMY 7378 (2-[4-[4-[2-pyrimidinyl]-1,2-piperazinyl]butyl]-1,2-benzi-isoth iozol-3-(2H)one-1,1-dioxide. 2HCl). The 5-HT1A receptor antagonists NAN-190 (1-(2-methoxyphenyl)-4-[4-(2-phtalimido)-butyl]piperazide.2H Cl), (+/-)-WAY 100,135 (+/-)-(N-tert-butyl-3(4-(2-methoxy phenyl)piperazin-1 -yl)-2-phenyl propionamine.2HCl), and ((S)-UH-301 (S)-5-fluoro-8-hydroxy-2-(di-n-propyl-amino)tetralin.HBr) reduced USV at higher doses and only in one of both test conditions. The selective 5-HT1A receptor antagonist DU 125530 (2-[4-[4[(7-chloro-2,3dihydro-4-benzodioxin-5-yl)-1-piperazi nyl]butyl]-1,2-benzisothiazol-3(2H)-one-1,1, dioxide, monomesylate), did not influence USV at the cold plate up to high doses, although concomitantly the negative geotaxis was disturbed. The negative geotaxis was impaired after all 5-HT1A receptor ligands, except BMY 7378 and (+/-)-WAY 100,135. Hypothermia coincided with USV-suppression, except for NAN-190 and (S)-UH-301. The USV-suppressing action of flesinoxan (3 mg/kg) could be antagonized by DU 125530, but not its NG effect. However, the hypothermia induced by flesinoxan was antagonized by DU 125530. USV were also suppressed by the 5-HT uptake inhibitors fluvoxamine (both warm and cold plate) and clomipramine (only warm plate). The tricyclic antidepressant imipramine only decreased USV on the cold plate, however, in a U-shaped dose-response curve. At the highest dose tested, no decrease was present. The 5-HT uptake stimulant tianeptine reduced USV under both conditions. Fluvoxamine had no side effects, clomipramine induced hypothermia and tianeptine clearly had sedative properties. The 5-HT1B/2C receptor agonist TFMPP (trifluorometaphenylpiperazine) stimulated USV at a low dose at the cold plate and suppressed USV at a high dose under both conditions. The 5-HT2A/2C receptor antagonist ketanserine enhanced USV at low doses under both conditions and had no effect at a higher dose. Concurrently heavy sedation and hypothermia occurred. The 5-HT3 receptor agonist phenylbiguanide and the 5-HT3 receptor antagonist ondansetron had no effect in this paradigm. Clearly, subtypes of the 5-HT receptor affect rat pup USV differentially.

Reduction of zif268 messenger RNA expression during prolonged withdrawal following "binge" cocaine self-administration in rats.

Cocaine self-administration increases dopamine efflux and neuronal activity in the mesocorticolimbic dopamine system compared with experimenter-administered cocaine. Following a prolonged cocaine self-administration binge, dopamine efflux in the nucleus accumbens is attenuated and behaviors emerge that are indicative of anhedonia and anxiety. The neuronal correlates of these behavioral and neurochemical effects of a cocaine binge were assessed using in situ hybridization histochemistry to detect changes in zif268 messenger RNA expression. Rats were fitted with intravenous catheters; one group was trained to self-administer cocaine (0.5mg/injection), then allowed continuous access to cocaine during a 16h binge, while yoked animals received either saline or cocaine according to the same schedule. Measurement of tactile startle responses and ultrasonic distress calls either immediately after termination of cocaine access or one or 14 days later confirmed peak withdrawal at 24h after the binge. The level of zif268 messenger RNA was lower upon termination of cocaine self-administration than in both yoked treatment groups in the ventral tegmental area and hippocampus. In contrast, zif268 messenger RNA expression increased in the periaqueductal gray matter one day after termination of passive cocaine treatment, coincident with enhanced expression of ultrasonic vocalizations. Zif268 messenger RNA expression decreased over time in the nucleus accumbens core and infralimbic cortex, with reduced expression observed in the nucleus accumbens core, caudatoputamen, hippocampus and amygdala 14 days after termination of cocaine self-administration. The results suggest that withdrawal following a cocaine self-administration binge produces a long-lasting reduction of constitutive zif268 messenger RNA expression in mesocorticolimbic brain regions related to the nucleus accumbens. The relatively greater effect in animals that self-administered cocaine implies a relationship of certain regional responses to behavioral conditioning.

Long-term behavioral and neuronal cross-sensitization to amphetamine induced by repeated brief social defeat stress: Fos in the ventral tegmental area and amygdala.

Repeated exposure to stress induces cross-sensitization to psychostimulants. The present study assessed functional neural activation during social defeat stress-induced sensitization to a subsequent amphetamine challenge. Social defeat stress was induced in intruder rats during short confrontations with an aggressive resident rat once every third day during the course of 10 days. Rats received d-amphetamine injections (1 mg/kg, i.p.) 17 or 70 days after the first social defeat stress exposure. Amphetamine administration induced a significantly higher frequency of locomotor activity in stressed animals than in handled control rats, which was still evident 2 months after the last social stress exposure. Immunohistochemistry for Fos-like proteins was used to detect activated neural profiles in the striatum, nucleus accumbens (NAc), prefrontal cortex, amygdala, and ventral tegmental area (VTA). Repeated social defeat stress significantly increased Fos-like immunoreactive (Fos-LI) labeling 17 days after the start of stress exposure in the prelimbic and infralimbic cortical regions, NAc shell and core, medial, central and basolateral amygdala, and VTA, which probably represented the expression of chronic Fos-related antigens. Amphetamine augmented stress-induced Fos-LI labeling 17 days after the first stress episode in the dorsal striatum, NAc core, and medial amygdala, reflecting a cross-sensitization of Fos response. Amphetamine challenge 70 days after social stress exposures revealed sensitized Fos-LI labeling in the VTA and the amygdala. These data suggest that episodes of repeated social stress induce a long-lasting neural change that leads to an augmented functional activation in the VTA and amygdala, which might represent a neurobiological substrate for long-lasting cross-sensitization of repeated social defeat stress with psychostimulant drugs.

Blockade of pituitary-adrenal axis activation induced by peripheral immunoneutralization of corticotropin-releasing factor does not affect the behavioral response to social defeat stress in rats.

Specific in vivo immunoneutralization of hypophysiotrophic corticotropin-releasing factor (CRF) and vasopressin (AVP) was used to investigate the respective roles of these circulating peptides in the hormonal response to a social stressor in Wistar rats. The effect of peripheral immunoneutralization on the behavioral response to the same social stressor was also studied. Stress was produced using social defeat in a resident-intruder paradigm, in which an intruder male rat, equipped with an indwelling IV catheter, was confronted with a dominant resident male rat. To minimize the physical component of the agonistic interaction, the intruder was protected immediately after the resident's first attack in a Plexiglas/wire-mesh enclosure. In the following time interval, the resident continued to threaten the protected intruder, which showed a significant increase in plasma immunoreactive adrenocorticotropic hormone (ACTH) and corticosterone levels compared to those measured in rats exposed to a control procedure. The hypothalamo-pituitary-adrenal (HPA) axis response to social defeat stress was totally abolished by pretreatment with an anti-CRF serum (0.3 ml IV) but not an anti-AVP serum (0.75 ml IV). An animal model for anxiety in rodents, the elevated plus-maze, was used to study the emotional response to social defeat stress in rats given anti-CRF serum or normal serum. A significant reduction of open-arm exploration was observed in defeated rats tested 10 min after the end of the agonistic interaction when compared with control animals for all antisera treatment group, indicating an "anxiogenic-like" emotional response to the social defeat stress. Pretreatment with anti-CRF serum did not affect the behavioral performance of defeated and control rats. These results suggest that: 1) social defeat stress produced an activation of the HPA axis in the rat which is mediated by hypophysiotrophic CRF but not AVP; and 2) the peripheral activation of the HPA axis induced by social defeat stress is not involved in the behavioral response to stress as measured in the elevated plus-maze.

Tolerance to the analgesic, but not discriminative stimulus effects of morphine after brief social defeat in rats.

One of the most prominent consequences of defeat in a social confrontation is a long-lasting tolerance-like insensitivity to the analgesic effects of opiates, even when only small short-lived changes in nociception are detectable during the acute social stress. The present experiments examined (1) which kinds of social experiences lead to morphine tolerance, (2) whether or not the morphine tolerance in defeat-experienced rats extends from the analgesic effects to the discriminative stimulus and rate-decreasing effects of morphine, and (3) how long morphine tolerance lasts after a defeat experience. After five brief social confrontations including attack and threat by a resident rat leading to submission or defeat of the intruder, the latter exhibits marked tolerance to the analgesic effects of morphine, but not to the discriminative stimulus or behaviorally suppressive effects. Changes in social housing did not alter morphine's behavioral effects. Tolerance to the analgesic morphine effects was detected for 2 months after the defeat experience, whereas the discriminative stimulus and rate-decreasing effects were closely similar to those before defeat. This pattern was seen in animals for whom discriminative stimulus training with morphine was suspended after defeat as well as in those for whom it continued. In additional defeated and non-defeated animals, morphine's effects on the acoustic startle reflex was assessed. In contrast to the tail flick reflex to a noxious heat stimulus, the acoustic startle response remained unaffected by defeat experience or by morphine (up to 30 mg/kg). The long-lasting and large degree of tolerance after brief social defeat experiences appears to be limited to the analgesic effects of morphine.(ABSTRACT TRUNCATED AT 250 WORDS)

Mouse-killing and motor activity: effects of chronic delta9-tetrahydrocannabinol and pilocarpine.

Chronic administration of delta9-tetrahydrocannabinol (THC) for 5--8 weeks at 4 dose levels (2, 10, 20, 50mg/kg/day) or of pilocarpine (12.5, 25 mg/kg/day) for 3 weeks induced mouse-killing in 25--70% of previously "non-killer" rats of the Sprague-Dawley strain. The maximum percent of drug-induced mouse-killing depended on the daily dose and housing conditions, 20mg/kg/day THC and 25 mg/kg/day pilocarpine in single-housed rats being the most effective treatments. Drug-induced mouse-killing appeared to be a form of behavioral pathology, differing from the species-specific predatory response, when it first appeared. Concurrent assessment of locomotor and rearing activities showed dose-dependent depressant effects of THC and pilocarpine without evidence for tolerance. Different dose-dependencies and time courses suggest that changes in motor activities are not directly linked to the appearance of the killing behavior.

Alcohol, anxiolytics and social stress in rats.

The main objective was to compare the anxiolytic-like profiles of alcohol, diazepam and gepirone along the stress intensity gradient which characterizes consecutive phases of a social confrontation. The acute social stress situation consisted of initially placing the experimental rat as an intruder into the homecage of a resident while the resident was not present, termed the "anticipatory" phase, thereafter permitting brief physical agonistic interactions with the re-introduced resident until the intruder was forced into a submissive supine posture and emitted ultrasonic vocalizations (USV), and eventually exposing the intruder to the resident's threats for 1 h, while being shielded from potential injurious attacks. The hyperthermia, measured via telemetry, in the "anticipatory" phase prior to defeat and in reaction to threats, was decreased by alcohol, gepirone and diazepam; alcohol and gepirone were also effective in attenuating "anticipatory" tachycardia. Alcohol, like gepirone and diazepam, also decreased defensive responses and ultrasonic vocalizations in the "anticipatory" phase of the confrontation, but none of these drugs affected defensive reactions to threats which immediately followed defeat. Gepirone had no systematic sedative effects throughout the confrontation; infact, it dose-dependently reduced the stress-induced suppression of locomotor activity during the "anticipatory" phase. In contrast, at higher doses, alcohol as well as diazepam had marked sedative effects as evidenced by several behavioral parameters (i.e. lie, crouch, walk). The anxiolytic-like profile of hyperthermia, tachycardia, USV and defensive behavior in the "anticipatory" phase of the confrontation by alcohol, gepirone and diazepam contrasted with the lack thereof during the more intense reactive phase. This differential pattern of effects appears to be relevant to the clinical distinctions between anticipatory anxiety and other affective disturbances.

Diazepam and gepirone selectively attenuate either 20-32 or 32-64 kHz ultrasonic vocalizations during aggressive encounters.

Ultrasonic vocalizations (USV) in rats may communicate "affective" states, as they occur only in highly significant behavioral contexts such as during sex, aggression, exposure to painful or startling events. This proposal was evaluated in an experiment with adult male Long-Evans rats during agonistic encounters; specifically, the effects of diazepam, flumazenil and gepirone were studied on different types of USV emitted by intruder rats exposed to resident attacks and to "threat of attacks" (i.e., intruder protected within the home cage of the resident by a wire mesh cage). USV were readily emitted during agonistic encounters and consisted primarily of two distributions of pure tone whistles: 0.3- to 3-s, 20- to 32-kHz ("low") signals and 0.02- to 0.3-s, 32- to 64-kHz ("high") signals. A considerable repertoire of frequency modulated signals was observed and proved to be sensitive to the anxiolytic treatments. Diazepam (1-6 mg/kg) dose-dependently decreased high frequency USV during the threat of attack and decreased the mean pitch of the most predominant vocalizations but did not affect low frequency USV or the audible squeals (AS) in response to bites. Gepirone (0.3-6 mg/kg) dose-dependently decreased low frequency USV and did not affect high frequency USV or AS. Responses to thermal pain stimuli remained unaltered by all drugs, while walking duration was decreased and crouch postures were increased after diazepam but not after gepirone administration. Gepirone in the present dose range had minimal effects on submissive, exploratory and locomotor behaviors. The pattern of results is consistent with the proposal that low frequency USV reflect a heightened affective state which is ameliorated with 5HT1A but not benzodiazepine anxiolytics, and suggests that the suppression of high frequency USV in reaction to attacks or threats coincides with the sedative or muscle relaxant properties of these compounds.

Ultrasounds during morphine withdrawal in rats.

Ultrasounds (US) in rats may communicate affective states, as they occur only in highly significant situations such as maternal care, sex and aggression. Withdrawal from morphine is a manipulation which dramatically alters autonomic, somatic and motor functions; the present experiment demonstrated the production of US in this context and the influence of previous social experience in their production. Sixty male Long-Evans rats with distinct social experiences (social inexperience, defeat or copulation) underwent 72 h of continuous morphine exposure (4 x 75 mg morphine or placebo pellets) and subsequent withdrawal. The rats were observed for 10 min in equally treated pairs and while solitary at 6, 24 and 96 h after pellet removal. US were emitted by all groups and consisted primarily of two distributions of pure tone whistles with little frequency modulation: 1-2 s 21-25 kHz ("low") signals and the more prevalent 0.02-0.1 s 44-52 kHz ("high") signals. Morphine withdrawn rats lost weight, displayed wet dog shakes, were hypoactive and emitted threefold more US vocalizations with a fourfold greater duration than placebo controls. Defeat-experienced morphine withdrawn rats were more hypoactive than either socially inexperienced or copulatory experienced rats while increasing vocalization rates and total duration. This increased duration of ultrasounds included a shift in the distribution of individual US durations from less than 0.3 s to greater than 1.0 s. US are readily emitted at high rates in morphine withdrawn laboratory rats, which may implicate an opioid involvement in their generation.(ABSTRACT TRUNCATED AT 250 WORDS)

Analgesia and decrement in operant performance in socially defeated mice: selective cross-tolerance to morphine and antagonism by naltrexone.

During a social confrontation between a resident and an intruder mouse, only the submissive or defeated intruder shows an opioid-mediated analgesia to which tolerance develops. We investigated the altered morphine responsiveness after different kinds of social experiences. Mice were assessed for performance of operant behavior under the control of a fixed ratio schedule of positive reinforcement as well as for the tail flick response to a heat stimulus before and after one or five consecutive social confrontations. The dose-effect curves for morphine's suppression of schedule-controlled behavior were closely similar before and after defeat in a single or in five social confrontations. However, the concurrently measured response to pain in the tail flick assay produced morphine dose-effect curves that were shifted to the right after defeat in one or five social confrontations. Four to six times higher doses of morphine were necessary to produce analgesia in mice that were defeated in five social confrontations. Naltrexone (1 mg/kg, ip) antagonized the suppressive effects of morphine (10 mg/kg, ip) on rate of responding and the analgesic effects. Naltrexone also blocked the development of analgesia in mice that were defeated for the first time in a social confrontation, but did not prevent the suppressive effects on rate of responding. Specific social experiences such as defeat in a social confrontation appear to alter endogenous opioid process that mediate analgesia; these processes differ from those that suppress positively reinforced behavior. The differential development of morphine tolerance to the analgesic effects, but not the rate-decreasing effects as well as the differential naltrexone antagonism of both effects may indicate the involvement of opioid and non-opioid mechanisms.

Aggression during morphine withdrawal: effects of method of withdrawal, fighting experience, and social role.

Offensive and defensive components of aggressive behavior were determined in resident and intruder mice. Withdrawal aggression was measured after the removal of a subcutaneous morphine pellet or after precipitation by naloxone in naive mice and after removal of a morphine pellet in mice with prior fighting experience. In naive mice, removal of a morphine pellet led to increases in attack bites and threats but naloxone-precipitated withdrawal led to decreases in these behaviors and to increases in defensive posturing, escape attempts and vocalizations. Prior fighting experience abolished the enhanced attack behaviors of resident mice following morphine pellet removal, but led to heightened defensive behavior in intruder mice. The behavior of intruder mice appeared more sensitive to naloxone administration than the behavior of resident mice; naloxone influenced not only intruder defensive behavior, but also other non-aggressive behaviors. The social role of the drug recipient and his prior history of aggressive behavior are important determinants of morphine and naloxone effects on aggression.