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Chapter 17

Anxiety Disorders, Autistic Disorder, Attention-Deficit/Hyperactivity Disorder, and Stress Disorders. Chapter 17. Lecture Preview. Anxiety Disorders Autistic Disorder Stress Disorders. Coping with stress. Stressor Response: Fight/Flight. 3. Escape from stressor. 4. Return to normal.

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Chapter 17

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  1. Anxiety Disorders, Autistic Disorder, Attention-Deficit/Hyperactivity Disorder, and Stress Disorders Chapter 17

  2. Lecture Preview Anxiety Disorders Autistic Disorder Stress Disorders

  3. Coping with stress • Stressor • Response: Fight/Flight 3. Escape from stressor 4. Return to normal Normal Catherine’s potential stress level during lecture

  4. Stress Disorders • Stressor – physiological reaction caused by the perception of aversive or threatening situations • Fight/flight response – physiological reactions that prepare us for the strenuous efforts of fighting or fleeing • Once threat is over, physiological state returns to normal (acute response)

  5. Norepinephrine Pathway

  6. Norepinephrine • Stressful situations increase release of NA in hypothalamus, frontal cortex, lateral basal forebrain • Controlled by a pathway from central nucleus (CN) of amygdala to locus coeruleus (LC)

  7. PVN Hypothalamic-Pituitary-Adrenal (HPA) Axis CRH • Stress increases glucocorticoid (cortisol) release

  8. Glucocorticoid (cortisol) • Hormone of the adrenal cortex that are important in protein and carbohydrate metabolism, secreted especially in times of stress.

  9. Corticotrophin-Releasing Hormone (CRH) • ICV injections of CRH decrease the amount of time a rat spends in the center of open field, enhances acquisition of a conditioned fear response, increases startle response elicited by a sudden loud noise • ICV injections of CRH antagonist reduces anxiety

  10. Negative Feedback of HPA Axis Due to glucocorticoid receptors at level of: hippocampus hypothalamus pituitary gland • Prolonged stress disrupts negative feedback system

  11. Effects of Stress on the brain CA1 CA1 -Long-term exposure to glucocorticoids destroys CA1 of hippocampus Stress exacerbates excitotoxic neuron loss CA3 CA3 Stein-Behrens et al., 1994

  12. Prenatal Stress – Increases in volume in Amygdala in Adulthood Salm et al., 2004

  13. Effects of stress on the brain • Prenatal stress causes learning and memory problems by interfering with development of hippocampus • Stress (confine) pregnant mother • Offspring have abnormal LTP and deficits on spatial learning task • Prenatal stress causes changes in amygdala • Pregnant moms injected with saline (last week of gestation) • Volume of lateral amygdala in adulthood was increased (30%) • Increased fearfulness to novel environment (pups)

  14. Response to Restraint Stress in Adult Offspring Barbazanges et al, 1996

  15. Effects of stress on brain Effects of prenatal stress on fetus are mediated by secretion of glucocorticoids • Stressed pregnant moms, observed the effects of this stressor on their offspring once they grew up • Prenatally stressed rats showed a prolonged secretion of glucocorticoids when they were stressed in adulthood • If mom’s adrenal glands were removed so glucocorticoids were not increased during stressor, offspring reacted normally in adulthood

  16. Effects of stress on the brain (Human Studies) • Brain degeneration in CT scans of people who were tortured • More mild forms of stress early in life also appear to affect brain development • Episodes of emotional maltreatment during childhood was associated with an average 7.2 reduction in volume of the dmPFC

  17. Acute Stress • Discrete episodes (single exposure in experiments) Results in: • Increase of glucocorticoid levels • Deficits in spatial memory • Deficits in LTP • Increase of hyperarousal and anxiety-like behaviour (Diamond et al., 1999, Adamec et al., 2006)

  18. Anxiety-like Behaviour : Elevated Plus Maze & Light/Dark Box Hyperarousal (startle)

  19. Animal Models of Anxiety • Predator odor • Cat • Fox • Isolation stress • Singlely housed • Chronic unpredictable stress • isolation, foot shock, etc…. • Submersion stress • “drowning-like” experience • Fear conditioning • Social defeat

  20. Posttraumatic Stress Disorder A psychological disorder caused by exposure to a situation of extreme danger and stress • Symptoms include: • Traumatic event persistently re-experienced • Avoidance of stimuli associated with trauma • Increased arousal

  21. PTSD and brain damage • Hippocampal damage in veterans with combat-related PTSD • 20% decreased in hippocampal volume • Loss was proportional to the amount of combat exposure • Police officers with PTSD had a smaller hippocampus

  22. Hippocampal volume may predate exposure to stress Gilbertson et al., 2002

  23. PTSD • A smaller hippocampus may be a predisposing factor in the acquisition of PTSD • Part of the reduction in hippocampus may predate the exposure to stress • 40 pairs of monozygotic twins – 1 went to Vietnam • Almost half the men who experience combat developed PTSD • Smaller hippocampus in those that developed PTSD • Smaller hippocampus was associated with more severe PTSD • Hippocampal volumes of the twin brothers of PTSD patients who stayed home also showed smaller hippocampal volumes

  24. PTSD individuals have higher activation in amygdala compared to frontal gyrus Shin et al., 2005

  25. PTSD • Most people exposed to a potentially traumatic event can suppress their emotional reaction. • PFC can inhibit amygdala (facilitate extinction) • In PTSD • fMRI study found that when shown picutres of faces with fearful expressions, people with PTSD show greater activation of amygdala and smaller activation of PFC than controls • Symptoms of PTSD were positively correlated with activation of amygdala and negatively correlated with activation of mPFC

  26. TRAINING Day 1 Novel Context (CS) + Tone (CS) + Footshock(US) • CONTEXT TEST • CUE TEST Day 2 Training Context (CS) Tone (CS) Fear Conditioning Protocol

  27. Phases of MemoryReconsolidation Acquisition - the pairing of the context/cue to the aversive stimuli Consolidation—blocked by protein synthesis inhibitors (anisomycin) Reconsolidation—blocked by protein synthesis inhibitors (anisomycin) 3-4 hours 3-4 hours 24 hours 24 hours Train Reactivate Test von Hertzen & Giese, 2005 Evidence suggests that reactivation of a memory can return it to a labile state requiring reconsolidation via protein synthesis

  28. Corticosterone May Facilitate Extinction Re-Exposure Re-Exposure Re-Exposure Re-Exposure Re-Exposure 24 h 24 h 24 h 24 h 24 h Test Train Extinction Trials A new memory is formed – context is no longer associated with shock (reduction in freezing)

  29. Inject – 5 minutes post-reactivation 7 days Corticosterone Augments Multiple-Trial Extinction in a Lasting Manner Blundell et al., 2011

  30. Conclusion Endogenous corticosterone surge following traumatic memory reactivation may be a natural mechanism to augment extinction of an associative fear memory (“prevent” PTSD?).

  31. Acute stress and Neurogenesis General Consensus: Acute stress reduces hippocampal neurogenesis DISCREPANCIES: -Increase of neurogenesis in dorsal hippocampus using restraint stress (Kirby et al., 2010) -No change in neurogenesis using predator odor (Thomas et al., 2006)

  32. Subgranular Zone of Dentate Gyrus

  33. Predator Stress • Predator Odour: • Activates hypothalamic-pituitary-adrenal (HPA) axis and produces anxiety-like behaviour in rats • Examples • Trimethylthiazoline (TMT) = Fox feces (Hill et l., 2006) • Soiled cat litter (Cohen,2004) • Cat fur (Munoz-Abellan et al, 2010)

  34. Human Human Entrance Entrance Cat Cat Entrance Entrance Rat Holding Rat Holding Box Box Predator Stress – Cat Exposure • -Developed in the Adamec laboratory • (Adamec & Shallow, 1993) • -Unprotected exposure of a rat/mouse to a cat for 10 min

  35. Research Question Predator stress (cat exposure) • Anxiety-like behaviour seen up to 3 weeks after exposure (Adamec, 1999) Acute stress affects neurogenesis How do the effects of predator stress influence adult hippocampal neurogenesis?

  36. (n= 4) (n= 6)

  37. PTSD Treatments • Current treatments – CBT, SNRIs, TMS • Ongoing research to uncover underlying mechanisms involved • Increase neurogenesis?

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