Abstract
Drug-associated contextual cues contribute to drug craving and relapse after abstinence, which is a major challenge to drug addiction treatment. Previous studies showed that disrupting memory reconsolidation impairs drug reward memory. However, the underlying mechanisms remain elusive. Although actin polymerization is involved in memory formation, its role in the reconsolidation of drug reward memory is unknown. In addition, the specific brain areas responsible for drug memory have not been fully identified. In the present study, we found that inhibiting actin polymerization in the nucleus accumbens (NAc) shell, but not the NAc core, abolishes morphine-induced conditioned place preference (CPP) by disrupting its reconsolidation in rats. Moreover, this effect persists for more than 2 weeks by a single injection of the actin polymerization inhibitor, which is not reversed by a morphine-priming injection. Furthermore, the application of actin polymerization inhibitor outside the reconsolidation window has no effect on morphine-associated contextual memory. Taken together, our findings first demonstrate that inhibiting actin polymerization erases morphine-induced CPP by disrupting its reconsolidation. Our study suggests that inhibition of actin polymerization during drug memory reconsolidation may be a potential approach to prevent drug relapse.
Highlights
Underlying mechanisms of drug memory reconsolidation remain elusive, increased evidence suggests that dyregulation of actin dynamics may play a key role in this process
Inhibition of actin polymerization in the Nucleus accumbens (NAc) core has no effect on the expression of morphine-induced Conditioned place preference (CPP)
Inhibition of actin polymerization in the NAc core has no effect on the expression of morphine-induced CPP. (A) Timeline of the experimental procedure. (B) CPP scores of rats receiving microinjections into the NAc core
Summary
Underlying mechanisms of drug memory reconsolidation remain elusive, increased evidence suggests that dyregulation of actin dynamics may play a key role in this process. Evidence suggests that actin dynamics may be involved in the reconsolidation of drug memories, e.g., morphine-induced CPP. The role of the NAc core and shell in the reconsolidation of morphine-induced CPP and underlying mechanisms remain unknown. We report that inhibiting actin polymerization in the NAc shell, but not the NAc core, abolishes morphine-induced CPP by disrupting its reconsolidation. This effect persists for more than 2 weeks by a single injection of the actin polymerization inhibitor, which is not reversed by a morphine-priming injection. Our study suggests that inhibition of actin polymerization during drug memory reconsolidation may be a potential approach to prevent drug relapse
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