Journal
NEURON
Volume 71, Issue 3, Pages 498-511Publisher
CELL PRESS
DOI: 10.1016/j.neuron.2011.06.011
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Funding
- National Institute on Drug Abuse [RO1-DA030074, R21-DA025970, RO1-DA016898, T32-DA07278, KO5-DA020570, K99-DA025182]
- Hope for Depression Research Foundation
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Maladaptive responses to stress adversely affect human behavior, yet the signaling mechanisms underlying stress-responsive behaviors remain poorly understood. Using a conditional gene knockout approach, the alpha isoform of p38 mitogen-activated protein kinase (MAPK) was selectively inactivated by AAV1-Cre-recombinase infection in specific brain regions or by promoter-driven excision of p38 alpha MAPK in serotonergic neurons (by Slc6a4-Cre or ePet1-Cre) or astrocytes (by Gfap-CreERT2). Social defeat stress produced social avoidance (a model of depression-like behaviors) and reinstatement of cocaine preference (a measure of addiction risk) in wild-type mice, but not in mice having p38 alpha MAPK selectively deleted in serotonin-producing neurons of the dorsal raphe nucleus. Stress-induced activation of p38 alpha MAPK translocated the serotonin transporter to the plasma membrane and increased the rate of transmitter uptake at serotonergic nerve terminals. These findings suggest that stress initiates a cascade of molecular and cellular events in which p38 alpha MAPK induces a hyposerotonergic state underlying depression-like and drug-seeking behaviors.
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