Relationship Among Plasma Cortisol, Catecholamines, Neuropeptide Y, and Human Performance During Exposure to Uncontrollable Stress

Objective Although many people are exposed to trauma, only some individuals develop posttraumatic stress disorder; most do not. It is possible that humans differ in the degree to which stress induces neurobiological perturbations of their threat response systems, which may result in a differential capacity to cope with aversive experiences. This study explored the idea that differences in the neurobiological responses of individuals exposed to threat are significantly related to psychological and behavioral indices. Methods Individual differences in neurohormonal, psychological, and performance indices among 44 healthy subjects enrolled in US Army survival school were investigated. Subjects were examined before, during, and after exposure to uncontrollable stress. Results Stress-induced release of cortisol, neuropeptide Y, and norepinephrine were positively correlated; cortisol release during stress accounted for 42% of the variance in neuropeptide Y release during stress. Cortisol also accounted for 22% of the variance in psychological symptoms of dissociation and 31% of the variance in military performance during stress. Conclusions Because dissociation, abnormalities in the hypothalamic-pituitary-adrenocortical axis, and catecholamine functioning have all been implicated in the development of stress disorders such as posttraumatic stress disorder, these data suggest that some biological differences may exist before index trauma exposure and before the development of stress-related illness. The data also imply a relationship among specific neurobiological factors and psychological dissociation. In addition, the data provide clues about the way in which individuals’ psychobiological responses to threat differ from one another.

[1]  S. B. Friedman,et al.  RELATIONSHIP BETWEEN PSYCHOLOGICAL DEFENSES AND MEAN URINARY 17-HYDROXYCORTICOSTEROID EXCRETION RATES. I. A PREDICTIVE STUDY OF PARENTS OF FATALLY ILL CHILDREN. , 1964, Psychosomatic medicine.

[2]  J W Mason,et al.  The Scope of Psychoendocrine Research , 1968, Psychosomatic medicine.

[3]  D. Farber,et al.  Dissociation of adrenal androgen and cortisol levels in acute stress. , 1985, Hormone and metabolic research = Hormon- und Stoffwechselforschung = Hormones et metabolisme.

[4]  J. D. McGaugh,et al.  Depletion of adrenal catecholamines alters the amnestic effect of amygdala stimulation , 1985, Behavioural Brain Research.

[5]  M. Takeichi,et al.  Guidance of optic nerve fibres by N-cadherin adhesion molecules , 1988, Nature.

[6]  R. Dienstbier,et al.  Arousal and physiological toughness: implications for mental and physical health. , 1989, Psychological review.

[7]  J. Morley,et al.  Modulation of memory processing by neuropeptide Y varies with brain injection site , 1989, Brain Research.

[8]  P. Illés,et al.  Interaction between neuropeptide Y and noradrenaline on central catecholamine neurons , 1990, Nature.

[9]  E. Blanchard,et al.  Changes in Plasma Norepinephrine to Combat‐Related Stimuli among Vietnam Veterans with Posttraumatic Stress Disorder , 1991, The Journal of nervous and mental disease.

[10]  R. Sapolsky,et al.  The role of the hippocampus in feedback regulation of the hypothalamic-pituitary-adrenocortical axis. , 1991, Endocrine reviews.

[11]  J. Rivet,et al.  Central and peripheral effects of repeated stress and high NaCl diet on neuropeptide Y , 1992, Physiology & Behavior.

[12]  R. Veith,et al.  Basal sympathoadrenal function in posttraumatic distress disorder , 1992, Biological Psychiatry.

[13]  L. Goldstein The Amygdala: Neurobiological Aspects of Emotion, Memory, and Mental Dysfunction , 1992, The Yale Journal of Biology and Medicine.

[14]  S. H. Ahmed,et al.  Corticotropin-releasing factor induces a place aversion independent of its neuroendocrine role , 1992, Brain Research.

[15]  E. Lauterbach The Amygdala: Neurobiological Aspects of Emotion, Memory, and Mental Dysfunction , 1993 .

[16]  G. Koob,et al.  Anxiolytic-Like Action of Neuropeptide Y: Mediation by Y1 Receptors in Amygdala, and Dissociation from Food Intake Effects , 1993, Neuropsychopharmacology.

[17]  D. Reis,et al.  Neuropeptide Y-related peptides and their receptors--are the receptors potential therapeutic drug targets? , 1993, Annual review of pharmacology and toxicology.

[18]  Hypothalamic-pituitary-adrenal axis dysregulation in sexually abused girls. , 1994, The Journal of clinical endocrinology and metabolism.

[19]  G. Koob,et al.  Corticotropin-releasing factor and neuropeptide y: role in emotional integration , 1994, Trends in Neurosciences.

[20]  R. Kessler,et al.  Posttraumatic stress disorder in the National Comorbidity Survey. , 1995, Archives of general psychiatry.

[21]  T. Gray,et al.  The amygdala: corticotropin-releasing factor, steroids, and stress. , 1996, Critical reviews in neurobiology.

[22]  M. Schedlowski,et al.  Time kinetics of the endocrine response to acute psychological stress. , 1996, The Journal of clinical endocrinology and metabolism.

[23]  Catecholamine function in posttraumatic stress disorder: emerging concepts. Edited by M. Michele Murburg. American Psychiatric Press (available via The Eurospan Group, Covent Garden, WC2E 8LU). March 1994. 352 pp. ISBN: 0‐88048‐473‐X , 1996 .

[24]  S. Southwick,et al.  Elevated CSF corticotropin-releasing factor concentrations in posttraumatic stress disorder. , 1997, The American journal of psychiatry.

[25]  G A Hudgens,et al.  Hormonal responses to psychological stress in men preparing for skydiving. , 1997, The Journal of clinical endocrinology and metabolism.

[26]  F. Guimarães,et al.  Anxiogenic effect of corticotropin‐releasing hormone in the dorsal periaqueductal grey , 1997, Neuroreport.

[27]  R. Yehuda,et al.  Sensitization of the Hypothalamic‐Pituitary‐Adrenal Axis in Posttraumatic Stress Disorder a , 1997, Annals of the New York Academy of Sciences.

[28]  Neurobiological and Clinical Consequences of Stress: From Normal Adaptation to Post-Traumatic Stress Disorder , 1997 .

[29]  L H Staib,et al.  Positron emission tomography measurement of cerebral metabolic correlates of yohimbine administration in combat-related posttraumatic stress disorder. , 1997, Archives of general psychiatry.

[30]  J. Harro,et al.  NPY Y1 receptors in the dorsal periaqueductal gray matter regulate anxiety in the social interaction test , 1998, Neuroreport.

[31]  Martin H. Teicher,et al.  Plasma norepinephrine and 3-methoxy-4-hydroxyphenylglycol concentrations and severity of depression in combat posttraumatic stress disorder and major depressive disorder , 1998, Biological Psychiatry.

[32]  K. Britton,et al.  Cardiovascular Actions of Neuropeptide Y and Social Stress , 1998, Peptides.

[33]  S. Southwick,et al.  Measurement of Dissociative States with the Clinician-Administered Dissociative States Scale (CADSS) , 1998, Journal of traumatic stress.

[34]  M. Sofroniew,et al.  Dehydroepiandrosterone (DHEA) and DHEA-sulfate (DHEAS) protect hippocampal neurons against excitatory amino acid-induced neurotoxicity. , 1998, Proceedings of the National Academy of Sciences of the United States of America.

[35]  G. Koob,et al.  Corticotropin-releasing factor, norepinephrine, and stress , 1999, Biological Psychiatry.

[36]  R. Kessler,et al.  Previous exposure to trauma and PTSD effects of subsequent trauma: results from the Detroit Area Survey of Trauma. , 1999, The American journal of psychiatry.

[37]  H. Krenn,et al.  Hemodynamic and catecholamine stress responses to insertion of the Combitube, laryngeal mask airway or tracheal intubation. , 1999, Anesthesia and analgesia.

[38]  H. Krenn,et al.  Hemodynamic and Catecholamine Stress Responses to Insertion of the Combitube[registered sign], Laryngeal Mask Airway or Tracheal Intubation , 1999 .

[39]  B. Kudielka,et al.  Impact of gender, menstrual cycle phase, and oral contraceptives on the activity of the hypothalamus-pituitary-adrenal axis. , 1999, Psychosomatic medicine.

[40]  J. D. McGaugh,et al.  Role of norepinephrine in mediating stress hormone regulation of long-term memory storage: a critical involvement of the amygdala , 1999, Biological Psychiatry.

[41]  Charles A Morgan,et al.  Hormone profiles in humans experiencing military survival training , 2000, Biological Psychiatry.

[42]  C. A. Morgan,et al.  Low baseline and yohimbine-stimulated plasma neuropeptide Y (NPY) levels in combat-related PTSD , 2000, Biological Psychiatry.

[43]  C. A. Morgan,et al.  Plasma neuropeptide-Y concentrations in humans exposed to military survival training , 2000, Biological Psychiatry.