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Cue-induced relapse to drug use is a primary symptom of cocaine addiction. Cue-induced transient excitatory synaptic potentiation (t-SP) induced in the nucleus accumbens mediates cued cocaine seeking in rat models of relapse. Cue-induced t-SP depends on extracellular signaling by matrix metalloproteases (MMPs), but it is unknown how this catalytic activity communicates with nucleus accumbens neurons to induce t-SP and cocaine seeking.
Seeking addictive drugs is regulated by synaptic plasticity in the nucleus accumbens core and involves distinct plasticity in D1 and D2 receptor-expressing medium spiny neurons (D1/2-MSNs). However, it is unknown how differential plasticity between the two cell types is coordinated. Synaptic plasticity and seeking behavior induced by drug-paired cues depends not only on plasticity in the canonical pre- and postsynapse, but also on cue-induced changes in astrocytes and the extracellular matrix adjacent to the synapse. Drug cue-induced signaling in the extracellular matrix is regulated by catalytic activity of matrix metalloproteinases MMP-2,9. We hypothesized that the cell type-specific synaptic plasticity is associated with parallel cell-specific activity of MMP-2 and MMP-9.
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