Randall R. Sakai

Subordination stress: Behavioral, brain, and neuroendocrine correlates

In mixed-sex rat groups consistent asymmetries in offensive and defensive behaviors of male dyads are associated with the development of dominance hierarchies. Subordinate males can be differentiated from dominants on the basis of both agonistic and non-agonistic behaviors, wound patterns, weight changes. Their behavior changes suggest chronic defensiveness and are also broadly isomorphic to many of the symptoms of depression; their voluntary alcohol consumption increases, and their life-spans are shortened. Both subordinate and dominant males tend to show organ change compared to non-grouped controls, with adrenal and spleen enlargement and thymus reduction. However, these changes appear to be more marked in subordinates, and only subordinates show reduced testes weights. Basal corticosterone (CORT) levels were sharply higher, and plasma testosterone (T) sharply lower, in subordinates compared to both dominants and controls, and reduced corticosterone binding globulin further enhanced free CORT for subordinates particularly. Many subordinates failed to show a normal CORT response to restraint stress. Subordinates also appear to show widespread changes in serotonin systems, with increased 5-HIAA/5-HT ratios in a number of brain areas, and alterations of 5-HT1A receptor binding at some sites. These changes suggest that subordination, a common and consistent feature of life for many animals living in social groups, may be a particularly relevant model for investigating the behavioral, neural and endocrine correlates of chronic stress.

Visible burrow system as a model of chronic social stress: behavioral and neuroendocrine correlates.

In mixed-sex rat groups maintained in visible burrow systems (VBS), consistent asymmetries in offensive and defensive behaviors of male dyads are associated with the development of dominance hierarchies. Subordinate males are characterized by particular wound patterns, severe weight loss, and a variety of behavioral changes, many of them isomorphic to target symptoms of clinical depression. In two VBS studies, subordinate males showed increased basal levels of plasma corticosterone (CORT), and increased adjusted adrenal and spleen weights compared to controls, and often, to dominants as well. Thymus weights and testosterone levels of subordinates were not reliably different in one study using highly aggressive males, but were reduced, along with testes weights, in a second study using unselected males. Glucocorticoid receptor binding levels in hippocampus, hypothalamus, and pituitary were not different, nor were aldosterone levels. When tested in a restraint stress procedure, subordinates had higher basal CORT levels, but about 40% of these animals showed a reduced, or absent, CORT response to restraint. These findings indicate that subordination may be reflected in high magnitude changes consistent with physiological indices of prolonged stress. Dominant rats of such groups may also show physiological changes suggesting stress, particularly when the groups are comprised of highly aggressive males only. The VBS colony model thus appears to enable rat groups to produce natural, stress-engendering, social interactions that constitute a particularly relevant model for investigating the behavioral, neural, and endocrine correlates of chronic stress.

Cloned mice have an obese phenotype not transmitted to their offspring.

Mammalian cloning using somatic cells has been accomplished successfully in several species, and its potential basic, clinical and therapeutic applications are being pursued on many fronts. Determining the long-term effects of cloning on offspring is crucial for consideration of future application of the technique. Although full-term development of animals cloned from adult somatic cells has been reported, problems in the resulting progeny indicate that the cloning procedure may not produce animals that are phenotypically identical to their cell donor. We used a mouse model to take advantage of its short generation time and lifespan. Here we report that the increased body weight of cloned B6C3F1 female mice reflects an increase of body fat in addition to a larger body size, and that these mice share many characteristics consistent with obesity. We also show that the obese phenotype is not transmitted to offspring generated by mating male and female cloned mice.

Chronic social stress reduces dendritic arbors in CA3 of hippocampus and decreases binding to serotonin transporter sites.

Male rats housed in mixed‐sex groups in a visible burrow system (VBS) form a dominance hierarchy in which subordinate animals show stress‐related changes in behavior, endocrine function and neurochemistry. Dominants also appear to be moderately stressed compared to controls, although these animals do not develop the more pronounced behavioral and physiological deficits seen in the subordinates. In the present study, we examined the effects of chronic psychosocial stress on the morphology of Golgi‐impregnated CA3 pyramidal neurons. In addition, since serotonin has been implicated in the mechanisms mediating the dendritic remodeling seen with other chronic stress regimens, we used quantitative autoradiography to measure binding to the serotonin transporter (5HTT) in hippocampus and dorsal and median raphe. Chronic social stress led to a decrease in the number of branch points and total dendritic length in the apical dendritic trees of CA3 pyramidal neurons in dominant animals compared to unstressed controls; subordinates also had a decreased number of dendritic branch points. [3H]paroxetine binding to the 5HTT was decreased in Ammons horn in both dominants and subordinates compared to controls, while 5HTT binding remained unchanged in dentate gyrus and raphe. The similarity of the changes in 5HTT binding and dendritic arborization between both groups of VBS animals, despite apparent differences in stressor severity, suggests that these changes may be part of the normal adaptive response to chronic social stress. The mechanisms underlying dendritic remodeling in CA3 pyramidal neurons are likely to involve stress‐induced changes in glucocorticoids and in 5HT and other transmitters. Synapse 36:85–94, 2000.

Serotonin receptor binding in a colony model of chronic social stress

Male rats housed in mixed-sex groups quickly established dominance hierarchies in which subordinates appeared severely stressed. Subordinate rats had elevated basal corticosterone (CORT) levels relative to dominants and individually housed controls. Several subordinates had blunted CORT responses to a novel stressor, leading to the classification of subordinates as either stress-responsive or nonresponsive. Binding to 5-HT1A receptors was reduced in stress-responsive subordinates compared to controls throughout hippocampus and dentate gyrus. Decreased binding was observed in nonresponsive subordinates only in CA3 of hippocampus. In addition, 5-HT1A binding was decreased in CA1, CA3, and CA4 in dominants compared to controls. Binding to 5-HT2 receptors was increased in parietal cortex in both responsive and nonresponsive subordinates compared to controls. No changes were observed in binding to 5-HT1B receptors. These results are discussed in the context of regulation of the serotonergic system by stress and glucocorticoids and possible relevance to the pathophysiology of depression.

Effects of aldosterone or RU28362 treatment on adrenalectomy-induced cell death in the dentate gyrus of the adult rat.

Previous studies have shown that granule cells of the adult dentate gyrus require adrenal steroids for their survival. In order to investigate whether activation of type I or type II adrenal steroid receptors can mediate granule cell survival, we have analyzed the density of pyknotic cells in the granule cell, CA1 and CA3 pyramidal cell layers in Nissl stained hippocampal sections from adult male rats which were either sham operated, adrenalectomized, or adrenalectomized and treated with aldosterone as a specific type I receptor agonist or RU28362 as a specific type II receptor agonist. Aldosterone treatment completely protected the dentate gyrus from adrenalectomy-induced cell death, while treatment with RU28362 resulted in only a partial protection against cell death in this region. These results indicate that type I adrenal steroid receptor activation is sufficient to protect against adrenalectomy-induced cell death.

Social stress: From rodents to primates

Social stress is associated with development of many psychological and physiological disturbances in humans. Animal models are needed to determine the etiology of these diseases and to develop rational clinical therapies to treat those afflicted. Rodent and non-human primate models of social stress have been developed to address these needs and contribute in complementary ways to the understanding of social stress. In this review, we provide an overview of common rodent and non-human primate models of social stress used in the laboratory with a focus on social hierarchy models. The implications of the current findings on understanding of the development of stress-related disease will also be discussed.

Stress and antidepressant effects on hippocampal and cortical 5-HT1A and 5-HT2 receptors and transport sites for serotonin

The interactions between 14 days of repeated restraint stress and daily administration of imipramine or tianeptine (2 h before the beginning of stress) were investigated in rats to assess responses of 5-HT2 and 5-HT1A receptors and serotonin transporter sites labelled by [3H]paroxetine in the cerebral cortex and hippocampus, two brain regions in which adrenal steroid effects on serotonin receptor-binding have been reported. 5-HT2 sites, labelled by [125I]7-amino-8-iodo ketanserin, were decreased in parietal cerebral cortex layers 3 and 5 by imipramine treatment, but not by tianeptine treatment and not by daily restraint stress. Stress, but not antidepressant, depressed 5-HT1A sites labelled with [3H]8-hydroxy-DPAT in hippocampal fields CA3, CA4 and dentate gyrus. [3H]paroxetine-binding to serotonin transporter sites was decreased by tianeptine treatment as well as by imipramine in both hippocampus and cerebral cortex, with some overlap of the fields that were significantly affected, whereas there were no effects of stress per se and no evidence of a stress x drug interaction. These results are discussed in relation to similarities and differences in the effects of different antidepressant drugs on the serotonergic system of the rat brain. Whereas the actions of imipramine and tianeptine on 5-HT2 and 5-HT1A receptors are specific to each drug, the surprising finding of a similar effect of both drugs to reduce serotonin transporter sites labelled by [3H]paroxetine suggest the possibility of a common action for these two drugs in spite of their opposite effects on serotonin re-uptake.

Chronic social stress produces reductions in available splenic type II corticosteroid receptor binding and plasma corticosteroid binding globulin levels

Adult male and female rats were housed for 2 weeks in a Visible Burrow System resulting in the development of strong dominant-subordinate relationships among the male rats. Neuroendocrine measures indicated that the subordinate rats, and to a lesser extent dominant rats, experienced chronic HPA axis hyperstimulation during the 2 week experience. This paper focuses on the consequences of this chronic social stress on cytosolic type II corticosteroid receptor binding in the spleen. In the first study, rats were adrenalectomized 18 h prior to sacrifice in order to measure total cellular receptor protein levels in each animal. In spite of the severity of the social stress, there was no decrease in splenic type II corticosteroid receptor binding levels in these short-term adrenalectomized animals. In the second study, rats were left adrenal-intact. Corticosteroid receptor levels in these adrenal-intact animals reflect the level of receptors (available receptors) that were unoccupied by endogenous hormone at the time of sacrifice. Both subordinate and dominant rats had fewer available splenic type II receptors than control rats, suggesting that a greater proportion of receptors in subordinate and dominant rats were occupied and activated by endogenous hormone at the time of sacrifice than in control rats. The differences in available receptor levels were not a function of total plasma corticosterone levels at the time of sacrifice (mean corticosterone levels were the same for control and subordinate rats). Instead, the differences in available receptor levels may have been a function of plasma corticosteroid binding globulin (CBG) levels which regulate free corticosterone levels. There was a large reduction in plasma CBG levels of subordinate (-70%) and dominant (-40%) rats relative to control rats, and there was a significant correlation between plasma CBG level and available type II receptors in the spleen. These results suggest that a decrease in CBG levels as a result of chronic social stress led to greater access of free corticosterone hormone to type II receptors in the spleen than is typically present in rats under basal or acute stress conditions. This result illustrates one mechanism by which chronic stress may have a greater impact than acute stress on splenic immune function.

REPEATED EXPOSURE TO SOCIAL STRESS HAS LONG-TERM EFFECTS ON INDIRECT MARKERS OF DOPAMINERGIC ACTIVITY IN BRAIN REGIONS ASSOCIATED WITH MOTIVATED BEHAVIOR

The visible burrow system (VBS) is a chronic social stress paradigm in which a dominance hierarchy forms among male rats housed with females. Males in the VBS undergo behavioral and physiological changes thought to be manifestations of chronic social stress. Since it is unclear whether chronic social stress affects motivation and reward behavior, brain areas related to these regions were examined. Long-term effects of a single or repeated VBS exposure on mesolimbic subregions were investigated by exposing rats to the VBS either once (one cycle of VBS housing and recovery) or repeatedly (three cycles). Behavior in the VBS was observed and rats were classified as dominants or subordinates. Subordinates were further sub-classified on the basis of stress hormone (corticosterone) response to an acute stressor (i.e. restraint stress). Normal responders were categorized as stress-responsive subordinates (SRS) and animals with a blunted hypothalamic-pituitary-adrenal axis response were designated as non-responsive subordinates (NRS). Controls males were pair-housed with a single female during VBS periods and alone during recovery. Lowered enkephalin-mRNA levels were observed in the nucleus accumbens (Acb) after single VBS exposure in SRS and repeated VBS exposure both subordinate groups (i.e. SRS + NRS) compared with controls. Decreased dopamine transporter density was detected after single VBS exposure in the dorsolateral caudate putamen (DLCPu) of NRS and after repeated VBS exposure in the Acb of NRS compared with controls. Dopamine D2 receptor density was elevated after single VBS exposure in the Acb of both subordinate groups (SRS + NRS) and after repeated VBS exposure in the DLCPu, dorsomedial CPu, and Acb of NRS compared with controls. No changes in dopamine D1 receptor binding were observed in any group. These results suggest that long-term changes in dopamine activity in mesolimbic structures persist after repeated exposures to chronic social stress and may provide insight into the neurochemical basis of depressive illness and subsequent comorbidity with drug abuse vulnerability.