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Targeting Neuroplasticity in Substance Use Disorders: Implications for Therapeutics

Marina E. Wolf

2024The Annual Review of Pharmacology and Toxicology20 citationsDOIOpen Access PDF

Abstract

The last two decades have witnessed substantial advances in identifying synaptic plasticity responsible for behavioral changes in animal models of substance use disorder. We have learned the most about cocaine-induced plasticity in the nucleus accumbens and its relationship to cocaine seeking, so that is the focus in this review. Synaptic plasticity pointing to potential therapeutic targets has been identified mainly using two drug self-administration models: extinction-reinstatement and abstinence models. A relationship between cocaine seeking and potentiated AMPAR transmission in nucleus accumbens is indicated by both models. In particular, an atypical subpopulation-Ca2+-permeable or CP-AMPARs-mediates cue-induced seeking that persists even after long periods of abstinence, modeling the persistent vulnerability to relapse that represents a major challenge in treating substance use disorder. We review strategies to reverse CP-AMPAR plasticity; strategies targeting other components of excitatory synapses, including dysregulated glutamate uptake and release; and behavioral interventions that can be augmented by harnessing synaptic plasticity.

Topics & Concepts

Nucleus accumbensNeuroscienceNeuroplasticitySynaptic plasticityAMPA receptorExtinction (optical mineralogy)PsychologyAbstinenceAddictionSubstance abuseNeurotransmissionGlutamate receptorMedicinePsychiatryDopamineBiologyInternal medicinePaleontologyReceptorNeuroscience and Neuropharmacology ResearchNeurotransmitter Receptor Influence on BehaviorNeural dynamics and brain function
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