Reduced left ventricular dimension and function following early life stress: A thrifty phenotype hypothesis engendering risk for mood and anxiety disorders.

BACKGROUND: Early life stress (ELS) in macaques in the form of insecure maternal attachment putatively induces epigenetic adaptations resulting in a "thrifty phenotype" throughout the life cycle. For instance, ELS induces persistent increases in insulin resistance, hippocampal and corpus callosum atrophy and reduced "behavioral plasticity", which, taken together, engenders an increased risk for mood and anxiety disorders in humans but also a putative sparing of calories. Herein, we test the hypothesis whether a thrifty phenotype induced by ELS is peripherally evident as hypotrophy of cardiac structure and function, raising the possibility that certain mood disorders may represent maladaptive physiological and central thrift adaptations. METHODS: 14 adult bonnet macaques (6 males) exposed to the maternal variable foraging demand (VFD) model of ELS were compared to 20 non-VFD adult subjects (6 males). Left ventricle end-diastolic dimension (LVEDD), Left ventricle end-systolic dimension (LVESD) and stroke volume (SV) were calculated using echocardiography. Blood pressure and heart rate were measured only in females. Previously obtained neurobehavioral correlates available only in males were analyzed in the context of cardiac parameters. RESULTS: Reduced LVESD (p < 0.05) was observed when controlled for age, sex, body weight and crown-rump length whereas ejection fraction (EF) (p = 0.037) was greater in VFD-reared versus non-VFD subjects. Pulse pressure was lower in VFD versus non-VFD females (p < 0.05). Male timidity in response to a human intruder was associated with reduced LVEDD (p < 0.05). CONCLUSIONS: ELS is associated with both structural and functional reductions of left ventricular measures, potentially implying a body-wide thrifty phenotype. Parallel "thrift" adaptations may occur in key brain areas following ELS and may play an unexplored role in mood and anxiety disorder susceptibility.

Maternal hypothalamic-pituitary-adrenal axis response to foraging uncertainty: A model of individual vs. social allostasis and the "Superorganism Hypothesis".

INTRODUCTION: Food insecurity is a major global contributor to developmental origins of adult disease. The allostatic load of maternal food uncertainty from variable foraging demand (VFD) activates corticotropin-releasing factor (CRF) without eliciting hypothalamic-pituitary-adrenal (HPA) activation measured on a group level. Individual homeostatic adaptations of the HPA axis may subserve second-order homeostasis, a process we provisionally term "social allostasis." We postulate that maternal food insecurity induces a "superorganism" state through coordination of individual HPA axis response. METHODS: Twenty-four socially-housed bonnet macaque maternal-infant dyads were exposed to 16 weeks of alternating two-week epochs of low or high foraging demand shown to compromise normative maternal-infant rearing. Cerebrospinal fluid (CSF) CRF concentrations and plasma cortisol were measured pre- and post-VFD. Dyadic distance was measured, and blinded observers performed pre-VFD social ranking assessments. RESULTS: Despite marked individual cortisol responses (mean change = 20%) there was an absence of maternal HPA axis group mean response to VFD (0%). Whereas individual CSF CRF concentrations change = 56%, group mean did increase 25% (p = 0.002). Our "dyadic vulnerability" index (low infant weight, low maternal weight, subordinate maternal social status and reduced dyadic distance) predicted maternal cortisol decreases (p < 0.0001) whereas relatively "advantaged" dyads exhibited maternal cortisol increases in response to VFD exposure. COMMENT: In response to a chronic stressor, relative dyadic vulnerability plays a significant role in determining the directionality and magnitude of individual maternal HPA axis responses in the service of maintaining a "superorganism" version of HPA axis homeostasis, provisionally termed "social allostasis."

Effects of Acute Confinement Stress-induced Hypothalamic-Pituitary Adrenal Axis Activation and Concomitant Peripheral and Central Transforming Growth Factor-ß1 Measures in Nonhuman Primates.

Transforming growth factor-ß1 (TGF-ß1) is a multifunctional cytokine with anti-inflammatory, immunosuppressive and neuroprotective properties. The hypothalamic-pituitary-adrenal (HPA) axis and immune system exert bidirectional influences on each other, via cortisol and TGF-ß1, but the exact nature of the interaction is not well characterized. The current study examined the effects, in bonnet macaques (Macaca radiata), of two consecutive acute confinement stress periods in an unfamiliar room while mildly restrained, first without and then with dexamethasone pretreatment (0.01 mg/kg IM). Preceding the confinement studies, a non-stress control condition obtained contemporaneous levels of cortisol and TGF-ß1 in both plasma and cerebrospinal fluid (CSF) to match the confinement stress studies. Subjects were reared under either normative or variable foraging demand (VFD) conditions. Since there were no rearing effects at baseline or for any of the conditions tested -- either for cortisol or TGF-ß -- the study analyses were conducted on the combined rearing groups. The stress condition increased both plasma and CSF cortisol levels whereas dexamethasone pretreatment decreased cortisol concentrations to below baseline levels despite stress. The stress condition decreased TGF-ß1 concentrations only in CSF but not in serum. Together the data suggested that stress-induced reductions of a centrally active neuroprotective cytokine occurs in the face of HPA axis activation, potentially facilitating glucocortoid-induced neurotoxicity. Stress-induced reductions of neuroprotective cytokines prompts exploration of protective measures against glucocorticoid-induced neurotoxicity.

Adult glucocorticoid receptor mRNA expression volatility in response to an acute stressor and juvenile CSF corticotropin-releasing factor: A pilot neurodevelopmental study.

INTRODUCTION: Early life stress (ELS) has been shown to play a role in establishing persistent maladaptive HPA axis modifications that may contribute to the pathogenesis of mood and anxiety disorders. Central glucocorticoid receptor (GR) messenger RNA (mRNA) expression may facilitate (mal)adaptive responsivity to ELS. The role of adult monocytic GR mRNA expression, a putative CNS proxy, during acute stress exposure was explored as well as the ELS marker, juvenile cerebrospinal fluid (CSF) corticotropin-releasing factor. METHODS: Six adult macaques (three of which were exposed to variable foraging demand, a form of ELS) underwent acute restraint. Baseline GR expression and plasma cortisol concentrations were separately measured followed by subsequent measurements following stress completion (t=0min, 4h, 5 days and 7 days). Juvenile CSF CRF concentrations were available in five subjects to determine their developmental association with GR expression in response to stress. RESULTS: As expected acute restraint stress produced a significant increase in plasma cortisol concentrations most robustly observed at 4h post-stress time point. There was a significant juvenile CSF CRF concentration x time interaction in predicting adult GR mRNA expression in response to stress (partial η2=0.80). During acute stress juvenile CRF concentrations negatively predicted GR expression and during recovery, "flipped" to positively predict expression. Juvenile CSF CRF concentrations positively correlated with the volatility of adult GR mRNA expression. CONCLUSIONS: During acute stress, relatively high CSF CRF concentrations are associated with relatively rapid reductions in GR expression. Return to an ambient post-stress state was characterized by a direct relationship, consistent with increased HPA axis restraint in high CRF subjects. An ELS-associated allostatic adaptation suggests relative elevations of juvenile CSF CRF concentration set the stage for a relative hyper-volatility of adult GR mRNA expression in response to acute stress with potential long-term implications for HPA axis regulation.

Correlations between hippocampal neurogenesis and metabolic indices in adult nonhuman primates.

Increased neurogenesis in feeding centers of the murine hypothalamus is associated with weight loss in diet-induced obese rodents (Kokoeva et al., 2005 and Matrisciano et al., 2010), but this relationship has not been examined in other species. Postmortem hippocampal neurogenesis rates and premortem metabolic parameters were statistically analyzed in 8 chow-fed colony-reared adult bonnet macaques. Dentate gyrus neurogenesis, reflected by the immature neuronal marker, doublecortin (DCX), and expression of the antiapoptotic gene factor, B-cell lymphoma 2 (BCL-2), but not the precursor proliferation mitotic marker, Ki67, was inversely correlated with body weight and crown-rump length. DCX and BCL-2 each correlated positively with blood glucose level and lipid ratio (total cholesterol/high-density lipoprotein). This study demonstrates that markers of dentate gyrus neuroplasticity correlate with metabolic parameters in primates.

Metabolic syndrome and neurometabolic asymmetry of hippocampus in adult bonnet monkeys.

OBJECTIVE: Obesity is associated with the insulin resistance metabolic syndrome, postulated to be mediated by stress-induced alterations within the hypothalamic-pituitary-adrenal (HPA) axis. In adult bonnet macaques we examined relationships between components of the metabolic syndrome, hippocampal neurometabolic asymmetry, an indicator of negative affect, and juvenile cerebrospinal fluid (csf) corticotropin-releasing factor (CRF) levels obtained after stress exposure associated with maternal food insecurity and in controls. METHODS: Eleven adult male monkeys (seven with early life stress) who had undergone csf-CRF analyses as juveniles had magnetic resonance spectroscopic imaging (MRSI) of bilateral hippocampus, morphometry (body mass index, BMI; sagittal abdominal diameter, SAD) and determination of fasting plasma glucose and insulin as adults. Neurometabolite ratios included N-acetyl-aspartate as numerator (NAA; a marker of neuronal integrity) and choline (Cho; cell turnover) and creatine (Cr; reference analyte) as denominators. RESULTS: Elevated juvenile csf-CRF levels positively predicted adult BMI and SAD and were associated with right>left shift of NAA ratio within the hippocampus. Adult visceral obesity and insulin level correlated with right>left shift in hippocampal NAA concentrations, controlling for age and denominator. CONCLUSION: Juvenile csf-CRF levels, a neuropeptide associated with early life stress, predict adult visceral obesity and hippocampal asymmetry supporting the hypothesis that metabolic syndrome in adults may be related to early life stress. Furthermore, this study demonstrates asymmetrical hippocampal alterations related to obesity.

Early-life stress, corpus callosum development, hippocampal volumetrics, and anxious behavior in male nonhuman primates.

Male bonnet monkeys (Macaca radiata) were subjected to the variable foraging demand (VFD) early stress paradigm as infants, MRI scans were completed an average of 4 years later, and behavioral assessments of anxiety and ex-vivo corpus callosum (CC) measurements were made when animals were fully matured. VFD rearing was associated with smaller CC size, CC measurements were found to correlate with fearful behavior in adulthood, and ex-vivo CC assessments showed high consistency with earlier MRI measures. Region of interest (ROI) hippocampus and whole brain voxel-based morphometry assessments were also completed and VFD rearing was associated with reduced hippocampus and inferior and middle temporal gyri volumes. The animals were also characterized according to serotonin transporter genotype (5-HTTLPR), and the effect of genotype on imaging parameters was explored. The current findings highlight the importance of future research to better understand the effects of stress on brain development in multiple regions, including the corpus callosum, hippocampus, and other regions involved in emotion processing. Nonhuman primates provide a powerful model to unravel the mechanisms by which early stress and genetic makeup interact to produce long-term changes in brain development, stress reactivity, and risk for psychiatric disorders.

Early-life stress, corticotropin-releasing factor, and serotonin transporter gene: a pilot study.

Recent studies have indicated a gene-by-environment interaction between serotonin transporter gene (5-HTTLPR) polymorphism and childhood abuse on depressive symptoms. In addition, persistent elevation of cerebrospinal fluid (CSF) corticotropin-releasing factor (CRF) concentrations following early-life adversity has been posited to underlie the subsequent development of major depression. This pilot study tested the hypothesis that elevations of juvenile CSF CRF concentrations are, in part, determined by an interaction between polymorphisms of the 5-HTTLPR and early-life stress. Nine juvenile male bonnet macaques (Macaca radiata) had been raised under variable foraging demand (VFD) conditions, a nonhuman primate model of early-life stress, whereas nine subjects were normatively raised under LFD (low foraging demand) conditions. Genotyping revealed that four (44.4%) of the VFD-reared monkeys possessed at least one "s" allele whereas five VFD monkeys were of the l/l genotype. Of the nine LFD subjects, two (22%) had the s/l genotype and seven had the l/l genotype. A "juvenile" CSF sample was obtained at approximately 3 years of age. CSF CRF concentrations were elevated specifically in the VFD "s/s" and "s/l" allele group in comparison to each of the remaining three groups, indicating a gene-by-environment (G×E) interaction.

Early-life stress and neurometabolites of the hippocampus.

We tested the hypothesis that early life stress would persistently compromise neuronal viability of the hippocampus of the grown nonhuman primate. Neuronal viability was assessed through ascertainment of N-acetyl aspartate (NAA)-an amino acid considered reflective of neuronal density/functional integrity-using in vivo proton magnetic resonance spectroscopic imaging (MRSI). The subjects reported herein represent a re-analysis of a sample of nineteen adult male bonnet macaques that had been reared in infancy under induced stress by maternal variable foraging demand (VFD) (N=10) or control rearing conditions (N=9). The MRSI spectral readings were recorded using a GE 1.5 Tesla machine under anesthesia. Relative NAA values were derived using NAA as numerator and both choline (Cho) or creatine (Cr) as denominators. Left medial temporal lobe (MTL) NAA/Cho but not NAA/Cr was decreased in VFD subjects versus controls. An MTL NAA/Cho ratio deficit remained significant when controlling for multiple confounding variables. Regression analyses suggested that the NAA/Choline finding was due to independently low left NAA and high left choline. Right MTL showed no rearing effects for NAA, but right NAA was positively related to body mass, irrespective of denominator. The current data indicate that decreased left MTL NAA/Cho may reflect low neuronal viability of the hippocampus following early life stress in VFD-reared versus normally-reared subjects. Given the importance of the hippocampus in stress-mediated toxicity, validation of these data using absolute quantification is suggested and correlative neurohistological studies of hippocampus are warranted.

The role of early life stress in development of the anterior limb of the internal capsule in nonhuman primates.

Deep brain stimulation (DBS) of the anterior limb of the internal capsule (ALIC) may be effective in treating depression. Parental verbal abuse has been linked to decreased fractional anisotropy (FA) of white matter and reduced FA correlated with depression and anxiety scores. Utilizing a nonhuman primate model of mood and anxiety disorders following disrupted mother-infant attachment, we examined whether adverse rearing conditions lead to white matter impairment of the ALIC. We examined white matter integrity using Diffusion Tensor Imaging (DTI) on a 3T-MRI. Twenty-one adult male Bonnet macaques participated in this study: 12 were reared under adverse [variable foraging demand (VFD)] conditions whereas 9 were reared under normative conditions. We examined ALIC, posterior limb of the internal capsule (PLIC) and occipital white matter. VFD rearing was associated with significant reductions in FA in the ALIC with no changes evident in the PLIC or occipital cortex white matter. Adverse rearing in monkeys persistently impaired frontal white matter tract integrity, a novel substrate for understanding affective susceptibility.

Echocardiographic determination of epicardial adipose tissue in healthy bonnet macaques.

BACKGROUND: Nonhuman primates have served as models for human cardiovascular (CV) and metabolic diseases. Recently, echocardiographic measurement of epicardial adipose tissue (EAT) thickness has been shown to be a reliable marker of visceral adiposity, and greater EAT is associated with increased CV risk, left ventricular (LV) hypertrophy, and metabolic syndrome. The objective of the present study was to determine EAT thickness in apparently healthy bonnet macaques and assess its relations with anthropometric and CV variables. METHODS: Echocardiography was performed on 61 monkeys (41 females and 20 males, mean age 13.0 +/- 4.7 years). EAT was measured on the right ventricular free wall in parasternal windows. Applanation tonometry was performed in 25 unselected monkeys using a SphygmoCor pulse wave system. RESULTS: The mean EAT thickness was 2.4 +/- 0.6 mm. EAT thickness was directly correlated with age (r = 0.26, P = 0.04), male gender (r = 0.47, P < 0.01), weight (r = 0.42, P < 0.01), crown-rump length (r = 0.45, P < 0.01), BMI (r = 0.38, P < 0.01), diastolic BP (r = 0.46, P = 0.01), and HR (r = -0.49, P < 0.01). EAT thickness also correlated with augmentation index (r = 0.42, P = 0.04), LV mass (r = 0.48, P < 0.01), and left atrial (LA) diameter (r = 0.26, P = 0.04). Intra- and interobserver coefficients of variation between measurements of EAT were 1.4% and 3.7%. On multivariate analysis adjusting for age, gender, weight, and CRL, EAT was independently related to age and weight (r2 = 0.47, P < 0.01). CONCLUSION: This study found echocardiography to be a feasible and practical method to evaluate EAT in nonhuman primates. In bonnet macaques, EAT thickness correlates with LV and LA dimensions and augmentation index, and is independently related to age and weight.

Characterization of arterial wave reflection in healthy bonnet macaques: feasibility of applanation tonometry.

Nonhuman primates are commonly used in cardiovascular research. Increased arterial stiffness is a marker of subclinical atherosclerosis and higher CV risk. We determined the augmentation index (AI) using applanation tonometry in 61 healthy monkeys (59% female, age 1-25 years). Technically adequate studies were obtained in all subjects and required 1.5 +/- 1.3 minutes. The brachial artery provided the highest yield (95%). AI was correlated with heart rate (HR) (r = -0.65, P < .001), crown rump length (CRL) (r = 0.42, P = .001), and left ventricular (LV) mass determined using echocardiography (r = 0.52, P < .001). On multivariate analysis, HR (P < .001) and CRL (P = .005) were independent predictors of AI (R2 = 0.46, P < .001). Body Mass Index (BMI) and AI were independent predictors of higher LV mass on multivariate analysis (P < .001 and P = .03). In conclusion, applanation tonometry is feasible for determining AI. Reference values are provided for AI in bonnet macaques, in whom higher AI is related to HR and CRL, and in turn contributes to higher LV mass.

Left ventricular systolic and diastolic function in healthy adult bonnet macaques (Macaca radiata). New echocardiographic indices in Old World monkeys.

OBJECTIVES: Macaques are used in cardiovascular and metabolic research. We determined echocardiographic-derived reference values of left ventricular (LV) systolic and diastolic function in healthy adult bonnet macaques (Macaca radiata). METHODS: Transthoracic echocardiography was performed during ketamine sedation in 83 (67% female) healthy monkeys (age 7-26 years). RESULTS: Technically adequate studies were obtained in all subjects and required 10.1 +/- 1.3 min of scanning time. Age correlated inversely with the following Doppler indices: E (r = -0.44, p < 0.001), E/A (r = -0.26, p = 0.02), E' (r = -0.45, p < 0.001, E'/A' (r = -0.44, p < 0.001), E/E' (r -0.25, p = 0.03), S' (r = -0.33, p = 0.003), Vp (r = -0.26, p = 0.049). LV mass was more strongly correlated with crown rump length (r = 0.72, p < 0.001) and body surface area (r = 0.70, p < 0.001) than with body mass index (r = 0.47, p < 0.001) and weight (r = 0.63, p < 0.001). CONCLUSIONS: This study demonstrates echocardiography is feasible for characterizing LV function. Age-related changes in Doppler indices in primates are similar to those in humans. LV mass is more closely related to fat-free mass indices. We provide reference values for LV systolic and diastolic function in adult bonnet macaques across the captive life span.

Energy expenditure in chow-fed female non-human primates of various weights.

BACKGROUND: Until now no technology has been available to study energy metabolism in monkeys. The objective of this study was to determine daily energy expenditures (EE) and respiratory quotients (RQ) in female monkeys of various body weights and ages. METHODS: 16 socially reared Bonnet Macaque female monkeys [5.5 +/- 1.4 kg body weight, modified BMI (length measurement from head to base of the tail) = 28.8 +/- 6.7 kg/crown-rump length, m2 and 11.7 +/- 4.6 years] were placed in the primate Enhanced Metabolic Testing Activity Chamber (Model 3000a, EMTAC Inc. Santa Barbara, CA) for 22-hour measurements of EE (kcal/kg) and RQ (VCO2/VO2). All were fed monkey chow (4.03 kcal/g) ad-libitum under a 12/12 hour light/dark cycle. Metabolic data were corrected for differences in body weight. Results were divided into day (8-hours), dark (12 hours) and morning (2-hours) periods. Data analysis was conducted utilizing SPSS (Version 13). RESULTS: Modified BMI negatively correlated with 22-hour energy expenditure in all monkeys (r = -0.80, p < 0.01). The large variability of daily energy intake (4.5 to 102.0 kcal/kg) necessitated division into two groups, non-eaters (< 13 kcal/kg) and eaters (> 23 kcal/kg). There were reductions (p < 0.05) in both 22-hour and dark period RQs in the "non-eaters" in comparison to those who were "eaters". Monkeys were also classified as "lean" (modified BMI < 25) or "obese" (modified BMI > 30). The obese group had lower EE (p < 0.05) during each time period and over the entire 22-hours (p < 0.05), in comparison to their lean counterparts. CONCLUSION: The EMTAC proved to be a valuable tool for metabolic measurements in monkeys. The accuracy and sensitivity of the instrument allowed detection of subtle metabolic changes in relation to energy intake. Moreover, there is an association between a reduction of energy expenditure and a gain in body weight.

Early-life stress and the development of obesity and insulin resistance in juvenile bonnet macaques.

Stress is a risk factor for chronic illnesses such as obesity, type 2 diabetes, and hypertension and has been postulated to cause the metabolic syndrome via perturbation of the hypothalamo-pituitary-adrenal (HPA) axis. In our model of early-life stress (variable foraging demand [VFD]), food insecurity is imposed on monkey mothers for 16 weeks beginning when their nursing offspring are 3-5 months of age. Under VFD, food availability is never restricted, and the infant's growth is unaffected. VFD rearing does, however, cause a range of neurobiological abnormalities, including dysregulation of the HPA axis, manifested in abnormal cerebrospinal fluid cortisol and corticotropin-releasing factor levels. We previously reported spontaneous occurrence of metabolic syndrome in 14% of normally reared peripubertal bonnet macaques given ad libitum access to standard monkey chow. Here, we show that compared with normally reared monkeys, peripubertal VFD juveniles exhibit greater weight, BMI, abdominal circumference, and glucagon-like peptide-1 and decreased glucose disposal rates during hyperinsulinemic-euglycemic clamps. Our data suggest that early-life stress during a critical period of neuro development can result in the peripubertal emergence of obesity and insulin resistance.

Maternal-infant response to variable foraging demand in nonhuman primates: effects of timing of stressor on cerebrospinal fluid corticotropin-releasing factor and circulating glucocorticoid concentrations.

The maternal stress response may vary as a function of infant developmental phase. Using a median split, 13 bonnet macaque (M. radiata) mother-infant dyads were exposed to early initiation of variable foraging demand (VFD), a prolonged stressor, whereas 11 dyads were exposed to late VFD onset. Cerebrospinal fluid (CSF) and plasma samples were obtained from mothers and infants prior to and following VFD. Increases in maternal CSF corticotropin-releasing factor (CRF) concentrations were evident in response to late, but not early, VFD. Mothers exhibited either increased or decreased cortisol concentrations in response to VFD. However, absolute cortisol change was greater in early versus late VFD. Timing of the VFD stressor differentially affects maternal neuroendocrine response, with potential implications for the offspring's developmental trajectory.

Decreased choline and creatine concentrations in centrum semiovale in patients with generalized anxiety disorder: relationship to IQ and early trauma.

We have demonstrated, using proton magnetic resonance spectroscopy imaging ((1)H-MRSI), elevations of N-acetyl-aspartate/creatine (NAA/CR) in right dorsolateral prefrontal cortex (DLPFC) in patients with generalized anxiety disorder (GAD) in comparison to healthy volunteers. A recent study indicates that the volume of prefrontal cortical white matter may be disproportionately increased in man in comparison to other primate species, with evolutionary implications. We therefore re-analyzed the identical scans with a specific focus on the centrum semiovale (CSO) as a representative region of interest of cerebral white matter. The central hypothesis was, in accordance with our gray matter findings, that patients with GAD, in comparison to healthy controls, would exhibit either an increase in NAA in CSO, or alternatively demonstrate reductions in concentrations of choline (CHO)-containing compounds and/or creatine+phosphocreatine (CR). MRSI scans that were obtained from an earlier [Mathew, S.J., Mao, X., Coplan, J.D., Smith, E.L., Sackeim, H.A., Gorman, J.M., Shungu, D.C., 2004. Dorsolateral prefrontal cortical pathology in generalized anxiety disorder: a proton magnetic resonance spectroscopic imaging study. American Journal of Psychiatry 161, 1119-1121] sample of 15 patients with GAD [6 with early trauma (ET)] and 15 healthy age- and sex-matched volunteers were analyzed further for CSO metabolite alterations. Self-reported worry was scored using the Penn State Worry Questionnaire (PSWQ) and intelligence was assessed using the Wechsler Abbreviated Scale of Intelligence (WASI). Serial multislice/multivoxel MRSI scans had been performed on a 1.5-T MRI. Using absolute quantification methods for metabolite concentrations, we examined NAA, CHO and CR. GAD patients without ET exhibited bilaterally decreased concentrations of CHO and CR in CSO in comparison to healthy volunteers, whereas GAD patients with ET were indistinguishable from controls. In patients with GAD, high IQ was paired with greater worry, whereas in healthy volunteers, high IQ was associated with less worry. In all subjects, IQ inversely predicted left and right CSO CHO concentrations, independent of age, sex, group assignment and PSWQ scores. The CSO may therefore represent a neural substrate that exhibits reductions in CHO and CR metabolite concentrations that are inversely associated with GAD symptomatology and, in the case of CHO, with intelligence. These conclusions are deemed preliminary due to small sample size, with further study of cerebral WM in anxiety disorders suggested.

Synchronized maternal-infant elevations of primate CSF CRF concentrations in response to variable foraging demand.

BACKGROUND: The study of environment-gene interactions during neurodevelopment may facilitate our understanding of the origins of psychiatric disorders. Environmental contribution to the neurobiology of psychopathology is perhaps most relevant during infancy, where vulnerability to early-life stressors is particularly evident. OBJECTIVES: In the current study, we wished to examine if central corticotropin-releasing factor (CRF) would provide a plausible biological vehicle for synchronized increases in mothers and their infant. METHODS: Twenty-four mother-infant bonnet macaques (Macaca radiata) dyads, of known age and weight served as subjects. The subjects were group-housed in four pens of 5-7 dyads each, stabilized for several weeks prior to the study period. Although adequate food was always available, mothers faced uncertainty of food availability for 16 weeks within the first year of infant life, through a procedure dubbed "variable foraging demand" (VFD). Pre- and post-VFD cerebrospinal fluid (CSF) samples were obtained simultaneously on mothers and infants. RESULTS: Maternal CSF CRF concentrations exhibited a significant mean elevation of 26% from pre-VFD to post-VFD; there was no effect of number of days postpartum on maternal pre-VFD CSF CRF levels. There was a significant mean increase (45%) in infant CSF CRF concentrations over the 16-week period of the VFD paradigm. No infant sex differences were evident. Post-VFD minus pre-VFD differences in infant CSF CRF concentrations were positively correlated (r = .52; N = 16; P = .0384) with the magnitude of maternal CRF response to VFD, providing evidence of synchronized CSF CRF expression by the dyad. CONCLUSION: This parallel response within the dyad suggests, as one testable hypothesis, that maternal responsivity to the stress of the VFD condition is "communicated" between mother and infant via a CRF-mediated mechanism. The VFD stressor produces a parallel activation of the central CRF system in both mothers and their infants.

Early appearance of the metabolic syndrome in socially reared bonnet macaques.

Among 250 laboratory-born bonnet macaques living in social groups and maintained on commercial monkey chow, we measured weight, crown-rump length, sagittal abdominal diameter (SAD), and fasting serum insulin, glucose, triglycerides, high-density lipoproteins, low-density lipoproteins, and total cholesterol. Body mass index (BMI = weight/crown-rump length(2)), and insulin resistance determined by the insulin/glucose ratio (IGR) and homeostasis model assessment, were measured. We defined the metabolic syndrome using a composite score based on morphometry, insulin resistance, and serum lipid levels, analogous to clinical criteria. Elevated BMI was associated with significantly greater SAD, insulin, IGR, homeostasis model assessment, and triglycerides. Among 120 adult monkeys aged 5-17 yr, males (n = 48) had higher BMI, SAD, insulin, and IGR levels than females, independent of age. Sixteen of 113 adult monkeys and five of 36 peripubertal subjects, aged 3-4 yr (14%), met our criteria for the metabolic syndrome, as did four of 12 monkeys, aged 20-28 yr. Markers of the metabolic syndrome are present by 3-4 yr of age in our colony and are observed across the life span in the absence of conventional obesifying interventions. Socially reared and housed bonnet macaques may provide a useful model for studying the pathogenesis, prevention, and treatment of the metabolic syndrome.

Effectiveness of video of conspecifics as a reward for socially housed bonnet macaques (Macaca radiata).

Two experiments were conducted to examine the effectiveness of presenting brief video of conspecifics to socially housed bonnet macaques as a reward for performing a joystick task. Using a joystick, subjects tracked a moving target with the cursor on a computer monitor. In Exp. 1, subjects completed significantly more joystick trials for food reward than for video reward or no reward. Subjects also preferred viewing video of another group (Other Group Video) to receiving no reward or to viewing video of their own group (Own Group Video). In Exp. 2, subjects were given two reward conditions, video of a familiar social group or video of a new social group. Two monkeys contributed the vast majority of trials, and both responded more frequently when the reward was video of the new social group. Results of these two experiments suggest that viewing video of conspecifics may serve as an effective reward for at least some socially housed primates and suggests that novelty of the individuals depicted in the video is an important factor contributing to the reward value of video.