Consolidation of Extinction Learning Involves Transfer from NMDA-Independent to NMDA-Dependent Memory
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TLDR
It is suggested that consolidation of extinction involves off-line relearning that reinforces extinction memory through NMDA-mediated plasticity, perhaps in prefrontal–amygdala circuits.Abstract:
Extinction of conditioned fear to a tone paired with foot shock is thought to involve the formation of new memory. In support of this, previous studies have shown that extinction of conditioned fear depends on NMDA receptor-mediated plasticity. To further investigate the role of NMDA receptors in extinction, we examined the effects of the NMDA antagonistd(−)-3-(2-carboxypiperazine-4-yl)-propyl-1-phosphonic acid (CPP) on the extinction of conditioned freezing and suppression of bar pressing (conditioned emotional response). Rats extinguished normally during a 90 min session in the presence of systemic CPP (10 mg/kg), but were unable to recall extinction learning 24 hr later. This suggests that an NMDA-independent form of plasticity supports short-term extinction memory, but NMDA receptors are required for consolidation processes leading to long-term extinction memory. Surprisingly, extinction learned in the presence of CPP was recalled normally when tested 48 hr after training, suggesting a delayed consolidation process that was able to improve memory in the absence of further training. Delayed consolidation involves NMDA receptors because CPP injected on the rest day between training and test prevented 48 hr recall of extinction learned under CPP. Control experiments showed that the effect of CPP on memory consolidation was not caused by state-dependent learning or reduced expression of freezing under CPP. These findings demonstrate that NMDA receptor activation is critical for consolidation of extinction learning and that this process can be initiated after training has taken place. We suggest that consolidation of extinction involves off-line relearning that reinforces extinction memory through NMDA-mediated plasticity, perhaps in prefrontal–amygdala circuits.read more
Citations
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Neurons in medial prefrontal cortex signal memory for fear extinction
TL;DR: It is suggested that consolidation of extinction learning potentiates infralimbic activity, which inhibits fear during subsequent encounters with fear stimuli, indicating that medial prefrontal cortex might store long-term extinction memory.
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The endogenous cannabinoid system controls extinction of aversive memories
Giovanni Marsicano,Carsten T. Wotjak,Shahnaz Christina Azad,Shahnaz Christina Azad,Tiziana Bisogno,Gerhard Rammes,Maria Grazia Cascio,Heike Hermann,Jianrong Tang,Clementine Hofmann,Walter Zieglgänsberger,Vincenzo Di Marzo,Beat Lutz +12 more
TL;DR: Treatment of wild-type mice with the CB1 antagonist SR141716A mimicked the phenotype of CB1-deficient mice, revealing that CB1 is required at the moment of memory extinction, and proposes that endocannabinoids facilitate extinction of aversive memories through their selective inhibitory effects on local inhibitory networks in the amygdala.
Journal ArticleDOI
Neural Mechanisms of Extinction Learning and Retrieval
Gregory J. Quirk,Devin Mueller +1 more
TL;DR: Recent work on the neural mechanisms of extinction learning is summarized, which shows Pharmacological methods to facilitate consolidation and retrieval of extinction, for both aversive and appetitive conditioning, are setting the stage for novel treatments for anxiety disorders and addictions.
Journal ArticleDOI
Context, ambiguity, and unlearning: sources of relapse after behavioral extinction.
TL;DR: The article concludes with several issues for future research, among them the question of how to optimize extinction and other putative "unlearning" treatments so as to prevent the various forms of relapse discussed here.
Journal ArticleDOI
Mechanisms of fear extinction
TL;DR: Behavioral, theoretical and neurobiological work, including the regions in which extinction-related plasticity occurs and the cellular and molecular processes that are engaged are covered, along with a discussion of clinical implications.
References
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