Immediate post-defeat infusions of the noradrenergic receptor antagonist propranolol impair the consolidation of conditioned defeat in male Syrian hamsters

Immediate post-defeat infusions of the noradrenergic receptor antagonist propranolol impair the consolidation of conditioned defeat in male Syrian hamsters

Abstract Social defeat occurs when an animal is attacked and subjugated by an aggressive conspecific. Following social defeat, male Syrian hamsters fail to display species-typical territorial aggression and instead exhibit submissive or defensive behaviors even when in the presence of a non-aggressi...

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Bibliographic Details
Published in:Physiology & behavior Vol. 152; no. Pt A; pp. 56 - 61
Main Authors: Gray, Cloe Luckett, Krebs-Kraft, Desiree L, Solomon, Matia B, Norvelle, Alisa, Parent, Marise B, Huhman, Kim L
Format: Journal Article
Language:English
Published: United States Elsevier Inc 01-12-2015
Subjects:
Adrenergic beta-Antagonists - administration & dosage
Animals
Beta-adrenergic receptors
Beta-blockers
Conditioning (Psychology) - drug effects
Conditioning (Psychology) - physiology
Dominance-Subordination
Dose-Response Relationship, Drug
Fear conditioning
Helplessness, Learned
Male
Memory consolidation
Memory Consolidation - drug effects
Memory Consolidation - physiology
Mesocricetus - physiology
Mesocricetus - psychology
Norepinephrine
Propranolol - administration & dosage
Psychiatry
Psychotropic Drugs - administration & dosage
Random Allocation
Social defeat
Time Factors
Memory consolidation
Norepinephrine
Beta-blockers
Social defeat
Beta-adrenergic receptors
Fear conditioning
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Summary:Abstract Social defeat occurs when an animal is attacked and subjugated by an aggressive conspecific. Following social defeat, male Syrian hamsters fail to display species-typical territorial aggression and instead exhibit submissive or defensive behaviors even when in the presence of a non-aggressive intruder. We have termed this phenomenon conditioned defeat (CD). The mechanisms underlying CD are not fully understood, but data from our lab suggest that at least some of the mechanisms are similar to those that mediate classical fear conditioning. The goal of the present experiment was to test the hypothesis that noradrenergic signaling promotes the consolidation of CD, as in classical fear conditioning, by determining whether CD is disrupted by post-training blockade of noradrenergic activity. In Experiment 1, we determined whether systemic infusions of the noradrenergic receptor antagonist propranolol (0, 1.0, 10, or 20 mg/kg) given immediately after a 15 min defeat by a resident aggressor would impair CD tested 48 h later. Hamsters that were given immediate post-training infusions of propranolol (1.0, but not 10 or 20 mg/kg) showed significantly less submissive behavior than did those given vehicle infusions supporting the hypothesis that there is noradrenergic modulation of the consolidation of a social defeat experience. In Experiment 2, we demonstrated that propranolol (1.0 mg/kg) given immediately, but not 4 or 24 h, after defeat impaired CD tested 48 h after defeat indicating that the window within which the memory for social defeat is susceptible to beta-adrenergic modulation is temporary. In Experiment 3, we examined whether central blockade of noradrenergic receptors could recapitulate the effect of systemic injections by giving an intracerebroventricular infusion of propranolol immediately after defeat and examining the effect on CD 24 h later. Centrally administered propranolol (20 μg/3 μl but not 2 μg/3 μl) was also effective in dose-dependently reducing consolidation of CD. Collectively, the present results indicate that noradrenergic activity promotes the consolidation of CD and suggest that CD is a valuable model to study the processes by which emotion and stress modulate memory in an ethologically relevant context. These data also suggest that the popular conception in the clinical literature that the anxiolytic effect of propranolol is primarily due to the drug's peripheral effects may need to be reconsidered.
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Cloe L. Gray, Ph.D., Neuroscience Institute, Morehouse School of Medicine, cloe.luckett@gmail.com
Desiree L. Krebs-Kraft, Ph.D., dkrebskraft@gmail.com
Matia B. Solomon, Ph.D., University of Cincinnati, Department of Psychiatry, Genome Research Institute Bldg E Room 216, 2170 E. Galbraith Rd./ML-0506, Reading, OH 45237-1625, matia.solomon@uc.edu
Alisa Norvelle, M.S., Neuroscience Institute, Georgia State University, P.O. Box 5030, Atlanta, GA 30302-5030, anorvelle@gsu.edu
Kim L. Huhman, Ph.D., Center for Behavioral Neuroscience, Neuroscience Institute, Georgia State University, P.O. Box 5030, Atlanta, GA 30302-5030
Marise B. Parent, Ph.D., Neuroscience Institute, Georgia State University, P.O. Box 5030, Atlanta, GA 30302-5030, mbparent@gsu.edu
ISSN:0031-9384
1873-507X
DOI:10.1016/j.physbeh.2015.09.010