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Opposing mechanisms mediate morphine- and cocaine-induced generation of silent synapses.


ABSTRACT: Exposures to cocaine and morphine produce similar adaptations in nucleus accumbens (NAc)-based behaviors, yet produce very different adaptations at NAc excitatory synapses. In an effort to explain this paradox, we found that both drugs induced NMDA receptor-containing, AMPA receptor-silent excitatory synapses, albeit in distinct cell types through opposing cellular mechanisms. Cocaine selectively induced silent synapses in D1-type neurons, likely via a synaptogenesis process, whereas morphine induced silent synapses in D2-type neurons via internalization of AMPA receptors from pre-existing synapses. After drug withdrawal, cocaine-generated silent synapses became 'unsilenced' by recruiting AMPA receptors to strengthen excitatory inputs to D1-type neurons, whereas morphine-generated silent synapses were likely eliminated to weaken excitatory inputs to D2-type neurons. Thus, these cell type-specific, opposing mechanisms produced the same net shift of the balance between excitatory inputs to D1- and D2-type NAc neurons, which may underlie certain common alterations in NAc-based behaviors induced by both classes of drugs.

SUBMITTER: Graziane NM 

PROVIDER: S-EPMC4925174 | biostudies-literature | 2016 Jul

REPOSITORIES: biostudies-literature

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Opposing mechanisms mediate morphine- and cocaine-induced generation of silent synapses.

Graziane Nicholas M NM   Sun Shichao S   Wright William J WJ   Jang Daniel D   Liu Zheng Z   Huang Yanhua H YH   Nestler Eric J EJ   Wang Yu Tian YT   Schlüter Oliver M OM   Dong Yan Y  

Nature neuroscience 20160530 7


Exposures to cocaine and morphine produce similar adaptations in nucleus accumbens (NAc)-based behaviors, yet produce very different adaptations at NAc excitatory synapses. In an effort to explain this paradox, we found that both drugs induced NMDA receptor-containing, AMPA receptor-silent excitatory synapses, albeit in distinct cell types through opposing cellular mechanisms. Cocaine selectively induced silent synapses in D1-type neurons, likely via a synaptogenesis process, whereas morphine in  ...[more]

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