Neuron
Volume 90, Issue 5, 1 June 2016, Pages 1100-1113
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Article
Dopamine Regulation of Lateral Inhibition between Striatal Neurons Gates the Stimulant Actions of Cocaine

https://doi.org/10.1016/j.neuron.2016.04.031Get rights and content
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Highlights

  • Synchronized activation of GABA transmission from multiple iMSNs inhibits APs in dMSNs

  • Cocaine suppresses lateral inhibition via D2Rs in iMSNs to disinhibit dMSNs

  • D2R agonist show higher efficacy at axon collaterals than at projections to VP

  • D2Rs in iMSNs are required for the stimulant effect of cocaine on locomotion

Summary

Striatal medium spiny neurons (MSNs) form inhibitory synapses on neighboring striatal neurons through axon collaterals. The functional relevance of this lateral inhibition and its regulation by dopamine remains elusive. We show that synchronized stimulation of collateral transmission from multiple indirect-pathway MSNs (iMSNs) potently inhibits action potentials in direct-pathway MSNs (dMSNs) in the nucleus accumbens. Dopamine D2 receptors (D2Rs) suppress lateral inhibition from iMSNs to disinhibit dMSNs, which are known to facilitate locomotion. Surprisingly, D2R inhibition of synaptic transmission was larger at axon collaterals from iMSNs than their projections to the ventral pallidum. Targeted deletion of D2Rs from iMSNs impaired cocaine’s ability to suppress lateral inhibition and increase locomotion. These impairments were rescued by chemogenetic activation of Gi-signaling in iMSNs. These findings shed light on the functional significance of lateral inhibition between MSNs and offer a novel synaptic mechanism by which dopamine gates locomotion and cocaine exerts its canonical stimulant response.

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