Molecular Mechanisms Underlying the Retrieval and Extinction of Morphine Withdrawal-Associated Memories in the Basolateral Amygdala and Dentate Gyrus

Despite their indisputable efficacy for pain management, opiate prescriptions remain highly controversial partially due to their elevated addictive potential. Relapse in drug use is one of the principal problems for addiction treatment, with drug-associated memories being among its main triggers. Co...

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Published in:Biomedicines 2022-03, Vol.10 (3), p.588
Main Authors: Franco-García, Aurelio, Fernández-Gómez, Francisco José, Gómez-Murcia, Victoria, Hidalgo, Juana M, Milanés, M Victoria, Núñez, Cristina
Format: Article
Language:English
Subjects:
Addictions
Addictive behaviors
Amygdala
Analgesics
Animals
Aversion
basolateral amygdala
Behavior
Brain research
conditioned place aversion
Dentate gyrus
Drug addiction
Drug dependence
Drug dosages
Drug withdrawal
Extinction behavior
Hippocampus
Kinases
Laboratories
Lactose
memory
Molecular modelling
Morphine
morphine withdrawal
mRNA
mTOR
Narcotics
Phosphorylation
Protein synthesis
Proteins
TOR protein
Withdrawal
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Summary:Despite their indisputable efficacy for pain management, opiate prescriptions remain highly controversial partially due to their elevated addictive potential. Relapse in drug use is one of the principal problems for addiction treatment, with drug-associated memories being among its main triggers. Consequently, the extinction of these memories has been proposed as a useful therapeutic tool. Hence, by using the conditioned place aversion (CPA) paradigm in rats, we investigated some of the molecular mechanisms that occurr during the retrieval and extinction of morphine withdrawal memories in the basolateral amygdala (BLA) and the hippocampal dentate gyrus (DG), which control emotional and episodic memories, respectively. The retrieval of aversive memories associated with the abstinence syndrome paralleled with decreased mTOR activity and increased Arc and GluN1 expressions in the DG. Additionally, Arc mRNA levels in this nucleus very strongly correlated with the CPA score exhibited by the opiate-treated rats. On the other hand, despite the unaltered mTOR phosphorylation, Arc levels augmented in the BLA. After the extinction test, Arc and GluN1 expressions were raised in both the DG and BLA of the control and morphine-treated animals. Remarkably, Homer1 expression in both areas correlated almost perfectly with the extinction showed by morphine-dependent animals. Moreover, Arc expression in the DG correlated strongly with the extinction of the CPA manifested by the group treated with the opiate. Finally, our results support the coordinated activity of some of these neuroplastic proteins for the extinction of morphine withdrawal memories in a regional-dependent manner. Present data provide evidence of differential expression and activity of synaptic molecules during the retrieval and extinction of aversive memories of opiate withdrawal in the amygdalar and hippocampal regions that will likely permit the development of therapeutic strategies able to minimize relapses induced by morphine withdrawal-associated aversive memories.
ISSN:2227-9059
2227-9059
DOI:10.3390/biomedicines10030588