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Cocaine but not natural reward self-administration nor passive cocaine infusion produces persistent LTP in the VTA.

ABSTRACT: Persistent drug-seeking behavior is hypothesized to co-opt the brain's natural reward-motivational system. Although ventral tegmental area (VTA) dopamine (DA) neurons represent a crucial component of this system, the synaptic adaptations underlying natural rewards and drug-related motivation have not been fully elucidated. Here, we show that self-administration of cocaine, but not passive cocaine infusions, produced a persistent potentiation of VTA excitatory synapses, which was still present after 3 months abstinence. Further, enhanced synaptic function in VTA was evident even after 3 weeks of extinction training. Food or sucrose self-administration induced only a transient potentiation of VTA glutamatergic signaling. Our data show that synaptic function in VTA DA neurons is readily but reversibly enhanced by natural reward-seeking behavior, while voluntary cocaine self-administration induced a persistent synaptic enhancement that is resistant to behavioral extinction. Such persistent synaptic potentiation in VTA DA neurons may represent a fundamental cellular phenomenon driving pathological drug-seeking behavior.

SUBMITTER: Chen BT 

PROVIDER: S-EPMC2593405 | biostudies-literature | 2008 Jul

REPOSITORIES: biostudies-literature

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Cocaine but not natural reward self-administration nor passive cocaine infusion produces persistent LTP in the VTA.

Chen Billy T BT   Bowers M Scott MS   Martin Miquel M   Hopf F Woodward FW   Guillory Anitra M AM   Carelli Regina M RM   Chou Jonathan K JK   Bonci Antonello A  

Neuron 20080701 2

Persistent drug-seeking behavior is hypothesized to co-opt the brain's natural reward-motivational system. Although ventral tegmental area (VTA) dopamine (DA) neurons represent a crucial component of this system, the synaptic adaptations underlying natural rewards and drug-related motivation have not been fully elucidated. Here, we show that self-administration of cocaine, but not passive cocaine infusions, produced a persistent potentiation of VTA excitatory synapses, which was still present af  ...[more]

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