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Are Subordinates Always Stressed? A comparative analysis of rank differences in cortisol levels among primates Abbot et al., 2003 Kyle Nash May 12th, 2009 Agenda 1. Stress and HPA axis review • from Kloet, Joels & Holsboer, 2005 2. Abbott et al., 2003 • • • • Intro Method Results Conclusion 3. Discussion What is Stress? • Process: Stimulus Response • Stressor: – Stimulus that threatens animal’s physiological homeostasis (Kloets et al., 2005) – Physical vs. Psychological (Real vs. Predicted) • Stress Response: – Active maintenance of physiological homeostasis – Sympathetic (Fight or Flight) & HypothalamicPituitary-Adrenocortical (HPA) systems Fight or Flight Response Stressor Sympathetic Nervous System/ Catecholamines ‘Fight or Flight’ Brain ‘Limbic’ Stressor Stem System (e.g. LC) PVN http://www.biology.ucr.edu/people/faculty/ Garland/HPA_axis.jpg Corticosteroid Receptors • Two types – Both respond to corticosteroids • Minerocorticoid Receptor (MR): – Appraisal, initial stress response – Important in gene transcription activity – More sensitive corticosteroids (10x) • Glucocorticoids Receptor (GR): – Terminates stress response for recovery (i.e. decrease CRH production) – Increased sensitivity to corticosteroids during stress – High density in PVN, aminergic & limbic pathways – Promotes stressor-related memory storage MR x GR Chronically Stressed Animal • Prolonged and/or repeated exposure to stressor (i.e. prolonged increase in corticosteroids) can have maladaptive consequences – Hypertension, type-II diabetes, ulcers, etc. • Chronic stress Neuroendocrine change – – – – – hippocampal (CA3) atrophy, reduced proliferation (MR) GRs and MRs downregulated Diminished Denate Granule cell turnover rate Reduced 5-HT receptor function Reduced LTP/Facilitated LTD • Produce a Stress-typology • ‘Coping’ can disrupt maladaptive changes – offspring of ‘caring’ rat mothers, higher hippocampal GR gene expression and decreased anxiety-related behaviour • Stress experience (stressors and coping) and genetic background cause long-term changes Summary • Stressors activate sympathetic and HPA systems • Glucocorticoids regulate stress response through MR and GR interaction • Prolonged stress physiological problems and neuroendocrine funtioning • Individual differences in genetics and experience important in stress response Rank and Stress • Stress levels may be higher in subordinates – Low access to resources, physical and social stressors, low ‘coping’ opportunities • Certain subordinate primates – elevated glucocorticoids and catecholimines – higher blood pressure – Stress-related pathologies • Not consistent for all primates Abbot et al., 2005 • Conflicting results on rank and stress • Purpose – Survey researchers (quasi-meta-analysis) – Rank, Sex, Species Stress – Looked at both physical/psychological factors Method • Questionnaire: 6 Domains, 17 questions I. What is it like to be a dominant individual in this society? II. What is it like to be a subordinate individual in this society? III. What are the typical routes by which ranks change? IV. What is the nature of revolutionary change in hierarchies? V. The role of kinship. VI. Non-agonistic factors relevant to the stress-response. • 0 (Not at all) – 3 (Highly applicable) Method: Sample 4 Old world (e.g. Rhesus) 3 New World (e.g. Marmoset) • Subordinates: indicated by expert of each sample • Analyses: by species and sometimes sex • 10 groups in total, large variance in group dynamics Method • DV: Relative Cortisol – Basal levels – Circulatory or urinary – Relative to dominant monkeys, controls for species differences • i.e. 100% = equal cortisol levels Analyses • Two types of analysis 1. Multiple Regression with independent contrasts – Flips variables from dependent (i.e. similar species) to independent – After data collection, excluded questions based on • missing values (5) • High r’s with other questions or Low r’s with cortisol (4) • 8 total questions 2. Data Tree - decision algorithm from response variability predicted – Different excluded values – Used 4 questions from 8 (above) in regression Tree-Based Method – Single Branch • (1) If Question 1A is >X, then this predicts relative cortisol levels = Y1% (branch 1). • (2) If Question 1A is <X, then this predicts relative cortisol levels = Y2% (branch 2). • Overall Tree = Minimum Branches for Maximum Predictive Power Q 1A Y1 Y2 Final Q’s Multiple Regression • 1A: How much of a role does aggression play in the attainment of dominance? • 2A: How frequently are subordinates subject to stressors? • 2B: How available is social support for subordinates? • 2F: Overall, how much should subordinate status be thought of as an undesirable state actively imposed by more dominant animals? • 3A: Do animals rise in the hierarchy through strenuous challenge of the status quo? • 4A: How often do such “revolutions” occur? • 5A: How important is kinship in understanding interactions among these animals? • 6A: Are there circumstances in which one has to invoke a physiological adaptation to subordinate status, rather than a response to agonistic behavior, to make sense of the profile of a particular stress hormone? • Two significant predictors, 2A and 2B Results: 2A - Social Stressors 2B - Social Support Final Q’s for Tree-Based Analysis • 2A: How frequently are subordinates subject to stressors? • 2B: How available is social support for subordinates? • 3A: Do animals rise in the hierarchy through strenuous challenge of the status quo? • 5A: How important is kinship in understanding interactions among these animals? Discussion • Subordinates do not always express higher levels of cortisol • Important factors: – Stressors frequency – Social support – Relevance of kinship • Possible neuroendocrine mechanisms – Increased stressors decreased GRs diminished negative feedback in stress response cortisol – Outlets (social support) diminishes cortisol levels – Kinship variable could predict both stressor frequency and social support quality Problems • Relative measure of cortisol • consider the cortisol levels for dominant monkeys • Questionnaire • Exclusions were largely subjective • Authors were respondents Discussion • Other important factors? – Other outlets or displacement behaviours? – Simple stressor disruption? – i.e., allowing rats access to a running wheel decreases the magnitude of the glucocorticoid response to shock • Coping mechanisms: MRxGR? – Stops GR downregulation? Coping? Social Support? • Stressor controllability inhibits behavioural response References • Unless otherwise noted, figures and tables from Abbot et al., 2003. • Sapolsky, R.M., Krey, L., McEwen, B., (1984). Stress down-regulates corticosterone receptors in a site-specific manner in the brain. Endocrinology, 114, 287–292. • Kloet, Joels, & Holsboer, (2005). Stress and the brain: From adaptation to disease. Nature Reviews: Neuroscience, 6, 463-475. • http://www.biology.ucr.edu/people/faculty/Garla nd/HPA_axis.jpg