Chronic administration of Org2766 and morphine counteracts isolation-induced increase in social interest: implication of endogenous opioid systems

HIV-1 Tat and morphine decrease murine inter-male social interactions and associated oxytocin levels in the prefrontal cortex, amygdala, and hypothalamic paraventricular nucleus

Many persons infected with HIV-1 (PWH) and opioid-dependent individuals experience deficits in sociability that interfere with daily living. Sociability is regulated by the prefrontal cortico-hippocampal-amygdalar circuit. Within this circuit HIV-1 trans-activator of transcription (HIV-1 Tat) and opioids can increase dendritic pathology and alter neuronal firing. Changes in sociability are also associated with dysregulation of hypothalamic neuropeptides such as oxytocin or corticotropin releasing factor (CRF) in the prefrontal cortico-hippocampal-amygdalar circuit. Accordingly, we hypothesized that the interaction of HIV-1 Tat and morphine would impair inter-male social interactions and disrupt oxytocin and CRF within the PFC and associated circuitry. Male mice were exposed to HIV-1 Tat for 8 weeks and administered saline or escalating doses of morphine twice daily (s.c.) during the last 2 weeks of HIV-1 Tat exposure. Tat attenuated aggressive interactions with an unknown intruder, whereas morphine decreased both non-aggressive and aggressive social interactions in the resident-intruder test. However, there was no effect of Tat or morphine on non-reciprocal interactions in the social interaction and novelty tests. Tat, but not morphine, decreased oxytocin levels in the PFC and amygdala, whereas both Tat and morphine decreased the percentage of oxytocin-immunoreactive neurons in the hypothalamic paraventricular nucleus (PVN). In Tat(+) or morphine-exposed mice, regional levels of CRF and oxytocin correlated with alterations in behavior in the social interaction and novelty tests. Overall, decreased expression of oxytocin in the prefrontal cortico-hippocampal-amygdalar circuit is associated with morphine- and HIV-Tat-induced deficits in social behavior.

Impact of housing conditions on social behavior, neuroimmune markers, and oxytocin receptor expression in aged male and female Fischer 344 rats

Aging is associated with a substantial decline in social behavior, whereas positive social interaction can improve overall health in aged individuals. In laboratory rodents, manipulations of the social environment across the lifespan have been shown to affect social behavior. Therefore, we examined the effects of long-term (5-6 weeks) housing conditions (alone, with one adult, or with two adults) on social behavior and the expression of neuroinflammation-related genes as well as oxytocin receptor (OXTR) gene expression in brain areas associated with social behavior regulation in aged male and female Fischer (F) 344 rats. Single-housed males and females exhibited increased social investigation, relative to pair-housed rats (one aged and one adult). Triple-housed (one aged and two adults) aged males exhibited lower levels of social investigation, relative to triple-housed aged females. Aged females were more socially active that their male counterparts. Although social housing condition significantly affected social behavior in males, it had no impact on cytokine gene expression in the paraventricular nucleus of hypothalamus (PVN), bed nucleus of the stria terminalis (BNST) or medial amygdala (MeA). However, in triple-housed aged females, who exhibited social behavior comparable to their single- and pair-housed counterparts, there was a significant increase in the expression of IL-1β and IL-6 mRNA in the MeA. No changes in cytokine gene expression were observed in the PVN or BNST, indicating that the increased expression of cytokines in the MeA was not a result of a generalized increase in neuroinflammation. Single-housed males and females exhibited elevated OXTR gene expression in the BNST. Taken together, these data indicate that manipulations of the social environment in late aging significantly influenced social interactions with a novel partner and gene expression in social behavior circuits and that these effects are sex-specific.

Age-dependent and strain-dependent influences of morphine on mouse social investigation behavior

Opioid-coded neural circuits play a substantial role in how individuals respond to drugs of abuse. Most individuals begin using such drugs during adolescence and within a social context. Several studies indicate that adolescent mice exhibit a heightened sensitivity to the effects of morphine, a prototypical opiate drug, but it is unclear whether these developmental differences are related to aspects of motivated behavior. Moreover, exposure to opioids within the rodent brain can alter the expression of social behavior, yet little is known about whether this relationship changes as a function of development or genetic variation. In this study, we conducted a series of experiments to characterize the relationship between genetic background, adolescent development and morphine-induced changes in mouse social investigation (SI). At two time points during adolescent development [postnatal days (PD) 25 and 45], social interactions of test mice of the gregarious C57BL/6J (B6) strain were more tolerant to the suppressive effects of morphine [effective dose 50 (ED50)=0.97 mg/kg and 2.17 mg/kg morphine, respectively] than test mice from the less social BALB/cJ (BALB) strain (ED50=0.61 mg/kg and 0.91 mg/kg morphine, respectively). By contrast, this strain-dependent difference was not evident among adult mice on PD 90 (ED50=1.07 mg/kg and 1.41 mg/kg morphine for BALB and B6 mice, respectively). An additional experiment showed that the ability of morphine to alter social responsiveness was not directly related to drug-induced changes in locomotor behavior. Finally, administration of morphine to stimulus mice on PD 25 reduced social investigation of test mice only when individuals were from the B6 genetic background. Overall, these results indicate that alterations in endogenous opioid systems are related to changes in SI that occur during adolescence, and that morphine administration may mimic rewarding aspects of social encounter.

Aging-related changes in the effects of social isolation on social behavior in rats

Aging is generally associated with cognitive dysfunction and alterations in emotional response. Moreover, in social situations, aging decreases social interaction with unfamiliar individuals, suggesting the decline of social cognition/motivation and a high level of anxiety. Although it is known that isolation housing has various effects on subsequent behavior, including social interaction depending on the age at isolation, the effects of isolation on aged subjects have not been examined. In the present study, we investigated the effects of aging and different periods of isolation housing on social interaction in male F344/N rats. Young (3-4months old) and aged (24-25months old) rats were either group-housed or socially isolated for 2 or 4weeks. The rats were tested with age-matched and group-housed unfamiliar males in a social interaction test, and social (e.g. approach/following and sniffing) and non-social behaviors (e.g. self-grooming and ambulation) were recorded. The results indicated that group-housed aged rats showed less approach/following, sniffing, and ambulation than group-housed young rats. Moreover, in young rats, isolation housing gradually increased approach/following and sniffing depending on the isolation period. In contrast, in aged rats, more prolonged isolation (4weeks) attenuated the 2-week isolation-induced increase of sniffing behavior and had no effect on approach/following. The present study suggests that aging decreases social investigation and induces high emotional response to a novel social environment, and that the behaviors can be differentially affected by social isolation depending on the age at isolation and the period of isolation.

Effects of fluoxetine and PCPA on isolation-induced morphine self-administration and startle reactivity

The present study investigated the effects of the SSRI fluoxetine and the serotonin synthesis blocker--parachlorophenylalanine (PCPA) on morphine self-administration and startle reactivity in rats subjected to social isolation during adulthood. Adult Wistar rats were housed individually or in pairs for 21days. They were treated with fluoxetine, PCPA, or vehicle and tested for their startle response and intake of a morphine solution (0.5mg/ml). Socially restricted rats consumed significantly more morphine solution (but not water) than rats living in pairs, in both one-bottle and in two-bottle tests. They also showed significantly higher startle response amplitude. Daily fluoxetine treatment (5mg/kg i.p.) counteracted these behavioral alterations induced by isolation housing while PCPA treatment (200mg/kg for 3 consecutive days) further exacerbated it. Social isolation may increase morphine self-administration and emotional reactivity in the startle box by affecting serotonin. Antidepressants (such as fluoxetine) may normalize or stabilize serotonin function and restore the behavioral changes produced by isolation.

Social isolation increases morphine intake: behavioral and psychopharmacological aspects

Environmental and situational factors are important determinants of recreational drug use in humans. We aimed to develop a reliable animal model for studying the effects of environmental variables on drug-seeking behavior using the 'social isolation/social restriction' paradigm. Adult Wistar rats housed in short-term isolation (21 days) consumed significantly more morphine solution (0.5 mg/ml) than rats living in pairs, both in one-bottle and in two-bottle tests. No differences were found in their water consumption. This effect was observed in both males and females and the results were also replicated after reversal of housing conditions. We also found that as little as 60-min of daily social-physical interaction with another rat was sufficient to completely abolish the increase in morphine consumption in socially restricted animals. We discuss some possible interpretations for these effects. These results indicate that environmental and situational factors influence drug intake in laboratory rats as they do in humans, and thus may be of interest in studying drug-seeking behavior in humans.

Morphine attenuates the effects of juvenile isolation in rats

The acute effects of juvenile isolation on sucrose intake and its long-term consequences on adult social behavior were investigated. Additionally, the role of the endogenous opioid systems was studied. Juvenile rats were housed in one of three conditions: in groups or in isolation with (partial isolation, PI) or without 30 min of daily social contact from 22 to 35 days-of-age. During this period the rats were treated daily with saline or morphine. Juvenile isolated rats showed an increased sucrose intake as compared to non-isolated controls, with PI-rats somewhere in-between, suggesting a negative correlation between the amount of social contact and sucrose consumption. Morphine treatment during the isolation period enhanced the sucrose intake in non-isolated rats, whereas it decreased sucrose consumption in (partial) isolated rats. With regard to the long-term effects, (partial) isolated rats decreased social activity as compared to non-isolated controls which was reversed by morphine treatment during the isolation period. In non-isolated rats, morphine treatment caused an opposite effect: it decreased social activity as compared to the saline treated controls. The data suggest that stimulation of endogenous opioid systems in the juvenile phase may have an important modulatory role in the expression of adult social behavior. The results are discussed in relation to a possible function of morphine as a substitute for the release of endogenous opioid peptides during social play.

Sequential analysis of juvenile isolation-induced decreased social behavior in the adult rat

The consequences of juvenile isolation on adult social behavior were studied in detail using two different analysis methods: frequency, duration, and latency of behavioral elements, and sequential analysis. Rats were either isolated or socially housed during weeks 4 and 5 of age, and after the isolation period housed in pairs with a rat of identical housing condition until the time of testing at 12 weeks of age. Juvenile isolation caused marked effects on the frequency, duration, and latency of various social behavioral elements, whereas the non-social activities such as ambulation, rearing, and self-grooming were hardly affected. Juvenile isolation reduced social exploration, anogenital sniffing, and approach/following and increased the latency to the first occurrence of these social behavioral elements. In contrast, the sequential analysis revealed that the structure of social behavior was barely affected by juvenile isolation. Some transitions were less pronounced in juvenile isolated rats compared to non-isolated rats, but no significant differences were observed in transitions between social elements. Thus, juvenile isolation bisected the time spent on adult social interactions, whereas it did not disrupt the sequential structure of social behavior. The present data suggest that juvenile isolation reduced the motivation for adult social behavior, but when social contact is initiated, a relatively normal social behavioral pattern is displayed.

Effects of juvenile isolation and morphine treatment on social interactions and opioid receptors in adult rats: behavioural and autoradiographic studies

The consequences of juvenile isolation and morphine treatment during the isolation period on (social) behaviour and mu-, delta- and kappa-opioid receptors in adulthood were investigated by using a social interaction test and in vitro autoradiography in rats. Juvenile isolation reduced social exploration in adults. Morphine treatment counteracted this reduction in isolated rats, but decreased social exploration in nonisolated rats. Self-grooming and nonsocial exploration were enhanced after juvenile isolation. Morphine treatment had no effect on self-grooming, but suppressed nonsocial exploration in isolated rats. With respect to the opioid receptors, juvenile isolation resulted in regiospecific increases in mu-binding sites with a 58% increase in the basolateral amygdala and a 33% increase in the bed nucleus of stria terminalis. Morphine treatment in isolated rats reversed this upregulation in both areas. The number of delta-binding sites did not differ between the experimental groups. A general upregulation of kappa-binding sites was observed after juvenile isolation, predominantly in the cortical regions, the hippocampus and the substantia nigra. Morphine treatment did not affect the upregulation of kappa-receptors. The results show that juvenile isolation during the play period causes long-term effects on social and nonsocial behaviours and on the number of mu- and kappa- but not delta-opioid receptors in distinct brain areas. The number of mu-receptors in the basolateral amygdala appears to be negatively correlated with the amount of social exploration in adult rats.

Morphine treatment during juvenile isolation increases social activity and opioid peptides release in the adult rat

The consequences of juvenile isolation and morphine treatment on general activity, social activity and endogenous opioid release during a social interaction test were investigated in the adult rat. Rats were either isolated or socially housed during weeks 4 and 5 of age and treated daily during this isolation period subcutaneously with either saline or morphine. Directly after a social interaction test at 10 weeks of age, rats were injected with [3H]-diprenorphine and subsequently prepared for in vivo autoradiography. The autoradiographic technique was used to visualise neuroanatomical changes in opioid receptor occupancy, probably reflecting changes in opioid peptide release, as a result of social activity. Juvenile isolation increased general activity during the social interaction test, an effect which was accompanied by a reduction of opioid receptor occupancy in many brain areas, suggesting an increased opioid peptide release as a consequence of socially-induced general activity. Morphine treatment in isolated rats caused an increase in adult social activity and enhanced opioid peptide release in some cortical regions and the ventral tegmental area as compared to saline treated rats. Both social activity and opioid receptor occupancy were unaffected by morphine treatment in non-isolated rats. The present study underscores the role of opioid systems in adult social behaviors as a consequence of juvenile isolation. The results suggest a relationship between social activity and opioid peptide release during social contact. Increased social activity seems to be accompanied by elevated opioid peptide release in distinct brain areas after morphine treatment during juvenile isolation.

Isolation during the play period in infancy decreases adult social interactions in rats

The effects of 1 or 2 weeks of social isolation immediately after weaning on social activity in adulthood were investigated in rats. In addition, it was studied whether these effects were influenced by social experiences of the cagemate when rehoused after the isolation period. Isolation during weeks 4 and 5 of age caused a reduction of social activity as compared to non-isolated controls. Previous social experiences of the cagemate (isolated or non-isolated) did not affect this decreased social activity. Isolation during week 4 of age resulted in similar effects, but the reduced social activity was not present when the rats were rehoused with non-isolated rats. Isolation during week 5 of age did not influence social activity patterns in adulthood. These findings support the idea of a sensitive period in infancy for subsequent social behavior in rats. It is suggested that especially deprivation of acquiring play behavior underlies the social disturbances in adulthood.

Prenatal exposure to morphine affects juvenile play behavior and adult social behavior in rats

The effects of morphine exposure in utero on play behavior and social behavior were investigated in a longitudinal study. Wistar rat dams were SC injected daily with saline (control) or 10 mg/kg morphine from day 8 to day 21 of gestation. Play behavior of the offspring was measured at 3 and 4 weeks of age and social behavior at 3 months of age. Pinning, a measure for play behavior and social grooming of the morphine-treated offspring were significantly elevated compared to saline controls, especially on day 21. The onset-latency of pinning behavior was not changed. Furthermore, prenatal morphine treatment resulted in more social approach and less social avoidance behavior in adulthood, whereas changes in general locomotor activity were not observed. The results are discussed in relation to the effects of in utero exposure of morphine on the development of incentive aspects of play and social behavior.