Carnegie Mellon University
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Rapid target-specific remodeling of fast-spiking inhibitory circuits after loss of dopamine.

journal contribution
posted on 2011-09-08, 00:00 authored by Aryn GittisAryn Gittis, Giao B Hang, Eva S. LaDow, Liza R. Shoenfeld, Bassam V. Atallah, Steven Finkbeiner, Anatol C. Kreitzer

In Parkinson's disease (PD), dopamine depletion alters neuronal activity in the direct and indirect pathways and leads to increased synchrony in the basal ganglia network. However, the origins of these changes remain elusive. Because GABAergic interneurons regulate activity of projection neurons and promote neuronal synchrony, we recorded from pairs of striatal fast-spiking (FS) interneurons and direct- or indirect-pathway MSNs after dopamine depletion with 6-OHDA. Synaptic properties of FS-MSN connections remained similar, yet within 3 days of dopamine depletion, individual FS cells doubled their connectivity to indirect-pathway MSNs, whereas connections to direct-pathway MSNs remained unchanged. A model of the striatal microcircuit revealed that such increases in FS innervation were effective at enhancing synchrony within targeted cell populations. These data suggest that after dopamine depletion, rapid target-specific microcircuit organization in the striatum may lead to increased synchrony of indirect-pathway MSNs that contributes to pathological network oscillations and motor symptoms of PD.

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Date

2011-09-08