Optogenetic Mapping of Cerebellar Inhibitory Circuitry Reveals Spatially Biased Coordination of Interneurons via Electrical Synapses

Authors
Kim, JinsookLee, SoojungTsuda, SachikoZhang, XuyingAsrican, BrentGloss, BerndFeng, GuopingAugustine, George J.
Issue Date
2014-06-12
Publisher
CELL PRESS
Citation
CELL REPORTS, v.7, no.5, pp.1601 - 1613
Abstract
We used high-speed optogenetic mapping technology to examine the spatial organization of local inhibitory circuits formed by cerebellar interneurons. Transgenic mice expressing channelrhodopsin-2 exclusively in molecular layer interneurons allowed us to focally photostimulate these neurons, while measuring resulting responses in postsynaptic Purkinje cells. This approach revealed that interneurons converge upon Purkinje cells over a broad area and that at least seven interneurons form functional synapses with a single Purkinje cell. The number of converging interneurons was reduced by treatment with gap junction blockers, revealing that electrical synapses between interneurons contribute substantially to the spatial convergence. Remarkably, gap junction blockers affected convergence in sagittal slices, but not in coronal slices, indicating a sagittal bias in electrical coupling between interneurons. We conclude that electrical synapse networks spatially coordinate interneurons in the cerebellum and may also serve this function in other brain regions.
Keywords
NEURONAL GAP-JUNCTIONS; PURKINJE-CELL ACTIVITY; TRANSGENIC MICE; CORTEX; CHANNELRHODOPSIN-2; CONNECTIVITY; NETWORKS; PHOTOSTIMULATION; INTEGRATION; MODULATION; NEURONAL GAP-JUNCTIONS; PURKINJE-CELL ACTIVITY; TRANSGENIC MICE; CORTEX; CHANNELRHODOPSIN-2; CONNECTIVITY; NETWORKS; PHOTOSTIMULATION; INTEGRATION; MODULATION
ISSN
2211-1247
URI
https://pubs.kist.re.kr/handle/201004/126689
DOI
10.1016/j.celrep.2014.04.047
Appears in Collections:
KIST Article > 2014
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