Socioregulatory effects on squirrel monkey pituitary-adrenal activity: a longitudinal analysis of cortisol and ACTH

Development of an optogenetic toolkit for neural circuit dissection in squirrel monkeys

Optogenetic tools have opened a rich experimental landscape for understanding neural function and disease. Here, we present the first validation of eight optogenetic constructs driven by recombinant adeno-associated virus (AAV) vectors and a WGA-Cre based dual injection strategy for projection targeting in a widely-used New World primate model, the common squirrel monkey Saimiri sciureus. We observed opsin expression around the local injection site and in axonal projections to downstream regions, as well as transduction to thalamic neurons, resembling expression patterns observed in macaques. Optical stimulation drove strong, reliable excitatory responses in local neural populations for two depolarizing opsins in anesthetized monkeys. Finally, we observed continued, healthy opsin expression for at least one year. These data suggest that optogenetic tools can be readily applied in squirrel monkeys, an important first step in enabling precise, targeted manipulation of neural circuits in these highly trainable, cognitively sophisticated animals. In conjunction with similar approaches in macaques and marmosets, optogenetic manipulation of neural circuits in squirrel monkeys will provide functional, comparative insights into neural circuits which subserve dextrous motor control as well as other adaptive behaviors across the primate lineage. Additionally, development of these tools in squirrel monkeys, a well-established model system for several human neurological diseases, can aid in identifying novel treatment strategies.

Salivary cortisol and psychopathology in children bereaved by the september 11, 2001 terror attacks

BACKGROUND

Studies suggest that stressful events increase risk for childhood anxiety and depression and hypothalamic-pituitary-adrenal (HPA) axis dysregulation. This prospective longitudinal study evaluated relationships among severe psychosocial stress, psychiatric morbidity, and HPA axis function in children.

METHODS

Forty-five children (mean age: 8.9 +/- 2.9 years) suffering parent death from September 11, 2001 terror attacks and 34 nonbereaved children (mean age: 9.3 +/- 2.5 years) were evaluated prospectively at 6-month intervals in this 2-year study. Assessments involved diagnostic interviews (Child Schedule for Affective Disorders and Schizophrenia [K-SADS]) for psychopathology and 3 days of baseline salivary cortisol and a salivary dexamethasone suppression test for HPA axis function.

RESULTS

Bereaved children, but not nonbereaved children, had significantly increased rates of psychiatric disorders involving anxiety disorders, especially posttraumatic stress disorder (PTSD), after September 11, 2001 compared with retrospective assessments before September 11, 2001. Morning (AM) and 4:00 pm baseline cortisol were significantly and persistently higher for bereaved than nonbereaved children. Compared with bereaved children without psychopathology, bereaved children with PTSD had significantly lower 4:00 pm baseline cortisol and significantly greater 4:00 pm cortisol suppression. Children with generalized anxiety disorder had significantly less AM cortisol suppression than children without psychopathology.

CONCLUSIONS

Children bereaved by sudden, unexpected parent death had persistent psychological dysfunction and HPA axis dysregulation in this study.

Measuring adult attachment representation in an fMRI environment: concepts and assessment

Human attachment is defined as a biologically based behavioral system that influences motivational, cognitive, emotional, and memory processes with respect to intimate relationships (parents, life partner, own children). Recent neurobiological studies in this field have in common that they investigated social relationships by examining fMRI neuroimaging patterns while individuals viewed pictures of their beloved relationship partner versus friends, acquaintances, strangers, or mothers' responses to their young children. The researchers showed that the neural underpinnings of these unique intimate emotional states are linked to functionally specialized areas in the brain. Conceptualizing this work from a behavioral systems-attachment theory perspective, these studies did not directly address the subject's attachment representational system. Traditional attachment theory and research has been built on the analysis of attachment narratives, called 'attachment representation'. The Adult Attachment Projective developed by George and West in 2001 is a set of attachment-based schematic pictures. It is constructed to increasingly activate the participant's attachment system in the course of the task, that is, by the introduction of increasingly stressful attachment scenes concluding with pictures of individuals facing death and potential abuse alone. The attachment patterns are evaluated based on individuals' overall verbal response to the picture set. This paper proposes that the AAP is a fruitful measure to use in an fMRI environment to examine brain activation patterns in adults while they are speaking overtly about attachment stories in a standardized setting.

Adult cortisol response to immature offspring play in captive squirrel monkeys

Variable environmental and social conditions influence hypothalamic-pituitary-adrenal activity in captive animals. Socially separated and individually housed animals generally experience increased cortisol secretion compared to animals housed with conspecifics, and social companionship can buffer the stress response when exposed to challenges such as introduction to novel environments. Nevertheless, the presence of conspecifics may also be the cause of stress because social dynamics impact individuals. Squirrel monkeys (Saimiri spp.) readily form same-sex affiliative social relationships, but in captivity, the presence of immature offspring severely disrupts affiliative associations among adults. We examined behavioral and physiological effects of the presence of immature offspring on adults by comparing two groups of adults with immature offspring to an all-adult group. We conducted behavioral observations and collected urine from adult members, and urine was assayed for cortisol at the Wisconsin National Primate Research Center. Adults in groups with immature offspring received an average of 18 play attempts per hour from the offspring, experienced a fivefold decrease in adult affiliation, and showed higher urinary cortisol levels compared to the all-adult group. A principal components analysis showed that adults characterized by receiving play attempts, rejecting play attempts, and lacking affiliative contact with other adults showed the highest mean urinary cortisol levels. Further analyses demonstrated that the persistent play attempts by immature offspring, not the resulting lack of adult huddling, were primarily responsible for the observed increase in urinary cortisol levels. Taken together, these data suggest that the disruptive effect of immature offspring produces a chronic cortisol increase in captive adult squirrel monkeys.

Neuroendocrine aspects of hypercortisolism in major depression

A consistent finding in biological psychiatry is that hypothalamic-pituitary-adrenal (HPA) axis physiology is altered in humans with major depression. These findings include hypersecretion of cortisol at baseline and on the dexamethasone suppression test. In this review, we present a process-oriented model for HPA axis regulation in major depression. Specifically, we suggest that acute depressions are characterized by hypersecretion of hypothalamic corticotropin-releasing factor, pituitary adrenocorticotropic hormone (ACTH), and adrenal cortisol. In chronic depressions, however, enhanced adrenal responsiveness to ACTH and glucocorticoid negative feedback work in complementary fashion so that cortisol levels remain elevated while ACTH levels are reduced. In considering the evidence for hypercortisolism in humans, studies of nonhuman primates are presented and their utility and limitations as comparative models of human depression are discussed.

The effects of the social environment on stress-related cardiovascular activation: current findings, prospects, and implications

Social relationships have been shown to be health-protective and to improve cardiovascular disease prognosis. One of the mechanisms by which social relationships may alter health status is through altering patterns of neuroendocrine or hemodynamic responding to ongoing activity. For example, research with non-human primates suggests that disrupted social relationships may increase cardiovascular risk through their effects on sympathetic nervous system activation. In humans, a number of recent reports have shown that the presence of an affiliative companion can reduce cardiovascular activity during psychologically challenging tasks, results which are consistent with this proposed mechanism of effect. We review the recent human literature which has examined the effects of the social environment on stress-related cardiovascular activity. Although findings in this literature are generally consistent, recent anomalous results are reviewed which shed light on some of the context-dependent effects of social affiliation. Additional areas for further investigation are examined, including possible mechanisms for explaining these social affiliation effects, individual differences which may moderate these effects, and emerging methodological advances for examining how these effects may generalize to the natural environment.

Separation induced changes in squirrel monkey hypothalamic-pituitary-adrenal physiology resemble aspects of hypercortisolism in humans

When separated from groups, squirrel monkeys respond with significant increases in plasma cortisol and adrenocorticotropic hormone (ACTH). While cortisol remains elevated above pre-separation levels, significant reductions occur in ACTH. Monkeys that respond with greater increases in cortisol subsequently exhibit greater reductions in ACTH, which suggests that reductions in ACTH are mediated by corticosteroid feedback. Monkeys that respond with greater increases in cortisol also tend to exhibit greater cerebrospinal fluid levels of the dopamine metabolite HVA, but not the norepinephrine metabolite MHPG, or corticotropin-releasing factor (CRF). Attenuation of corticosteroid feedback with metyrapone results in significant increases in circulating ACTH, and in older monkeys increases plasma HVA. Similar findings in humans have been reported in clinical studies of hypercortisolism and major depression.

Adrenocortical responses to repeated parachute jumping and subsequent h-CRH challenge in inexperienced healthy subjects

The present study examined the adrenocortical response to 3 consecutive parachute jumps and a poststress h-CRH challenge. Fifteen participants in a parachute-jumping course took saliva samples for later cortisol analysis every 20 min throughout the day, when they accomplished their very first 3 parachute jumps and throughout a control day. The effects of an h-CRH challenge on salivary cortisol were assessed in the evening of the jumping day and on a control day. Parachute jumping induced 3 distinct highly significant adrenocortical responses. The respective cortisol increases for the first, second, and third jump were 39.4 +/- 26.5 nmol/1, 31.4 +/- 21.4 nmol/l, and 16.5 +/- 11.9 nmol/l. Cortisol responses to the first and second jump did not differ but the response to the third jump was significantly reduced [t(13) = 3.11; p = 0.008]. Two groups of subjects were identified, "decreasers," whose response decreased from one to the other jump, and "increasers," whose response remained unchanged or increased. The magnitude of the preceding cortisol response of decreasers exceeded that of increasers significantly by about 30 nmol. The mean adrenocortical effects of the poststress h-CRH challenge and the time-matched challenge on a control day did not differ although, in 4 subjects, the poststress adrenocortical response to h-CRH was completely suppressed.

Psychobiological consequences of social relationships

Social separations can induce long-lasting increases in cortisol, whereas companionship can result in social buffering. Preliminary evidence from studies of squirrel monkeys suggests that social separation-induced hypersecretion of cortisol is initially driven by hypersecretion of ACTH. From 1-21 days postseparation, however, cortisol remains elevated above pre-separation controls, while ACTH levels are consistently reduced. Hypercortisolism is maintained despite reductions in ACTH, because adrenal responsiveness to ACTH is enhanced. Low circulating ACTH, in turn, is maintained by robust feedback mechanisms that apparently inhibit biosynthesis or release of pituitary ACTH. These findings are consistent with neuroendocrine interactions known or hypothesized to occur during major depressive disorders in humans and raise unique possibilities for comparative research in human and nonhuman primates.

Hypothalamic-pituitary-adrenal responses to brief social separation

Involuntary separation from close social companions is widely held to lead to pathophysiological outcomes. Presumably, the relationship with, or category of, the separated individual determines the nature of the physiological response. Here, experiments examining the consequences of brief involuntary separation on the activity of the stress-responsive hypothalamic-pituitary-adrenal (HPA) system are reviewed. Only those studies designed specifically to assess the effect of the absence of the social partner are considered. Evidence for HPA activation in response to social separation has been obtained in a number of species; yet, many studies find no effect of separation of affiliative partners on HPA activity. The occurrence of an HPA response to separation does not appear to be related to the phylogenetic position or cognitive capacity of the species studied, nor is it a universal response to mother-infant separation. Rather, it is suggested that the pattern of results can be largely understood in the context of attachment. Separation of partners exhibiting signs of emotional attachment leads to an immediate and persistent HPA response, whereas separation of partners that are affiliative, but do not exhibit attachment, has little or no effect on HPA activity.