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Booze and anxiety
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The alcohol mystery
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Known mechanisms
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Known mechanisms Suppression of excitation through ionotropic glutamate receptors NMDA/AMPA Ethanol
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Known mechanisms Enhancing GABAergic transmission
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Known mechanisms Enhancing GABAergic transmission GABA
allopregnanolone GABA Cl- Protein kinase C
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Subjective effects What’s responsible?
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Subjective effects What’s responsible? Energized Talkative “Up”
Excited Stimulated stimulant depressant Drowsy “Burned out” Tired Sluggish Sedated
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Etiology Positive reinforcement Negative reinforcement
Shifting contingencies + reinforcement - reinforcement Social/enhancement motives Enhancement expectancies
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Corticotropin-releasing hormone (CRH)
Synthesized in the paraventricular nucleus (PVN) of the hypothalamus in response to stress Travels to the pituitary via the hypophyseal portal Pituitary increases levels of ACTH received by adrenal cortex, which in turn, produces glucocorticoids, which inhibit ACH in the brain
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Corticotropin-releasing hormone (CRH)
CRH has anxiogenic effects (?!) But, stimulates β-endorphin release in the pituitary (+ ACTH) and HYP Repeated cycles of alcohol exposure and withdrawal are associated with increased anxiety and sensitivity to stress May be a result of adaptations in the CRH system (i.e., increased CRH release and CRH receptors) “Up regulation” of CRH system under ethanol exposure
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Endogenous opioid system
Three classes of endogenous peptides Dynorphins Enkephalins Endorphins Β-endorphins
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Endogenous opioid system
Ethanol β-endorphin release from pituitary and HYP An inverse U-shaped, dose-response curve Larger β-endorphin release for alcohol-preferring rats? Ethanol may also ↑ directly in NAc, VTA, and CeA Β-endorphin ethanol
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Endogenous opioid system
Naloxazine ↓ ethanol-induced DA release in NAc Naloxone and naltrexone = reduced consumption and longer time to relapse (but small overall effect!)
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Endogenous opioid system
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introduction Both CRH and β-endorphin ↑ in CeA in response to alcohol
Goals: Alcohol ↑ CRH release in CeA, and that this behavior Microinjection of CRH in CeA would ↑ extracellular concentrations of β-endorphin Microinjection of CRH agonists would ↓ alcohol-induced β-endorphin release in CeA
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experiment 1 Method Canulas placed in CeA, given either saline or 2, 2.4, 2.8 g ethanol/kg body weight Recorded quadrant crossing, grooming activity
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experiment 1 Results Significant main effect of dose on extracellular CRH concentration At dose levels 2.4 and 2.8g/kg At time points 120, 150, 180 after dose
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experiment 1 Results Locomotor activity Grooming Main effect of time
No effect of dose Grooming No main effect of dose Time x dose interaction
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experiment 2 Method Canulae placed in CeA, given 0.5 ml of either 0.25 mg CRH, 0.25 mg antalarmin hydrochloride (CRH1 antagonist), or 0.25 mg anti-sauvagine-30 (CRH2 antagonist) Concentrations of CRH and β-endorphin using antibodies
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experiment 2 Results 0.25 CRH Dose x time interaction 2.8 g/kg ethanol
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experiment 2 Results Inj of CHRR1 antagonist + ethanol
Significant interaction between drug/vehicle and ethanol/saline CHRR1 antagonist buffered against ethanol-related β-endorphin release over time
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experiment 2 Results Inj of CHRR2 antagonist + ethanol
Significant three-way interaction between drug/vehicle, ethanol/saline, time CHRR2 antagonist attenuated β-endorphin release after ethanol injection between 60 and 180 min after dose
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