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mPFC’s role in stress and anxiety

Prostaglandin E 2 -Mediated Attenuation of Mesocortical Dopaminergic Pathway Is Critical for Susceptibility to Repeated Social Defeat Stress in Mice. mPFC’s role in stress and anxiety. provides an interface between limbic and cortical structures

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mPFC’s role in stress and anxiety

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  1. Prostaglandin E2-Mediated Attenuation of MesocorticalDopaminergic Pathway Is Critical for Susceptibility toRepeated Social Defeat Stress in Mice

  2. mPFC’s role in stress and anxiety • provides an interface between limbic and cortical structures • regulates the stress-induced activity of the hypothalamus-pituitary-adrenal (HPA) axis • Synaptic connections with nucleus accumbens • Suppress action of amygdala via glutamatergic efferents stimulating GABAergic neurons of the amygdala • Under normal conditions of fear suppression (acute stress) • the mPFC is activated and inhibits amygdala output • Chronic stress • Reduction in medial PFC inhibition of the amygdala  amygdala takes control

  3. Evidence linking mPFC to psychiatric disorders • decrease in apical dendritic material in the anterior cingulate region of mPFC in depressed patients • Stimulation of mPFC neurons supresses depression-like behavior • Depression and anxiety associated with hyperactivity of amygdala • Electrical stimulation of NAc relieves depressive symptoms • Decrease of c-Fos, FosB or ΔFosB expression in glutamatergic neurons of medial PFC • Decreased expression of immediate-early gene products suggests decrease of neuronal activation in brain region

  4. Prostaglandin E2 (PGE2) • NSAIDs have therapeutic effects in major depression • EP1 is present at GABAergic terminals onto midbrain dopamine neurons • EP1 stimulation potentiates inhibitory synaptic inputs

  5. How are PGs generated in the Brain? • gene coding for the P2X7 receptor (P2X7R) is located on a susceptibility locus associated with major depressive disorder • ATP is usually released from damaged cells as a result of oxidative stress • relatively high (mM) ATP concentrations are needed to elicit PGE2 production • Repeated social defeat • Prenatal stress increased IL1β mRNA levels in the hippocampus of rats • Increased Iba1-immunoreactive microglial cells • IL1β is known to decrease the affinity of corticosteroid receptors in the hippocampus • increased activity of HPA axis observed in adulthood • studies have reported elevated blood glucocorticoids in MDD patients as well as decreased levels PGE2?

  6. P2X7 Deficient vs Wild type Mice • P2X7/ mice exhibited significantly lower immobility time than WT mice, as revealed by a genotype main effect • P2X7 mice appeared more anxious in elevated pulse maze • Decreased C-Fos in basolateral amygdala and dentate gyrus

  7. Materials and Methods • Mice • EP1, EP2 EP3-deficient mice • EP4 Crerecombinase mice • EP4-deficientpatent ductusarteriosus (blood vessel ductusarteriosus (to lungs) doesn’t close) • COX-1 and 2 deficient • Repeated social defeat stress • 7-week old male mice introduced to aggressor 10 min daily for 10 days • Social interaction test • Control and defeated mice in open field chamber for 150 seconds • Elevated Plus maze • Control and defeat mouse in maze for 10 min • Dopaminergic lesion • 6-Hydroxydopamine

  8. PGE2 Measurement in Subcortical Region

  9. Production of PGE2s by microglia • Quantitative RT-PCR • No change in [COX-1 mRNA] after repeated social defeat • Constitutively expressed COX-1microglia activation • COX-1 activity suppressed under normal conditions?

  10. EP1-deficiency

  11. Attenuation of MesocorticalDopaminergic Pathway • EP1 located at GABAergic synaptic inputs to midbrain dopamine neurons • Stimulation of EP1inhibition of dopamine neurons • Susceptibility to repeated defeat • C-Fos expression in VTA measured • First social defeat=increase in c-FOS in VTA • Attenuated upon 10th defeat • Recent studies have shown a greater degree of c-Fos, FosB or ΔFosB expression in glutamatergic neurons of mPFC of resilient mice following chronic predator or social defeat stress. • Increased expression of these immediate-early gene products would suggest increased neuronal activation in this brain region, which might represent a pro-resilience adaptation.

  12. Dopamine Turnover • Emotional behaivor • Dopamine-innervated • mPFC • NAc • Ratio of DOPAC/HVA to dopamine • mPFC • First social defeatincrease turnover • 10th defeat attenuated turnover • NAc • Smaller initial turnover but still attenuated after repeated defeat • EP1-deficiency turnover attenuation didn’t occur in mPFC but still occurred in NAc • EP1 involved in attenuation upon repeated stress not involved in stress-induced activation

  13. Susceptible • Susceptibility receptors • EP1 • P2X7 • Resilient • Active mesocorticaldopaminergic pathway • Decreased EP1 action • Decreased P2X7 action

  14. References • Tanaka, Kohei, TomoyukiFuruyashiki, et al. Prostaglandin E2-Mediated Attenuation of MesocorticalDopaminergic Pathway Is Critical for Susceptibility To Repeated Social Defeat Stress in Mice. Journal of Neuroscience. (2012). 32 4319-4329. • Durrenberger, Pascal, Edna Grunblatt, et al. Parkinson's Disease. (2012): 1-16. • Boucher , A, JC Arnold, et al. Resilience and redueced C-Fos Expression in P2X7 Recetor Knockout Mice Exposed to Repeated Forced Swim Test. Neuroscience. 189. (2011): 170-177. • Russo, S. Murrough, J. et al. Neurobiology of resilience. (2012). Nature Neuroscience 15, 1475-1485. • Furuyashiki, T. Roles of Dopamine and Inflammation-Related Molecules in Behavioral Alterations Caused by Repeated Stress. Journal of Pharmacology Science. (2012) 120 63-69

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