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1.  A Circuit Model for Saccadic Suppression in the Superior Colliculus 
The Journal of Neuroscience  2011;31(6):1949-1954.
Attenuation of visual activity in the superficial layers (SL) of the superior colliculus during saccades may contribute to reducing perceptual blur during saccades and also may help prevent subsequent unwanted saccades. GABAergic neurons in the intermediate, premotor, layer (SGI) send an inhibitory input to SL. This pathway provided the basis for a model proposing that the SGI premotor cells that project to brainstem gaze centers and discharge before saccades also activate neighboring GABAergic neurons that suppress saccade induced visual activity in SL.
The in vitro method allowed us to test this model. We made whole-cell patch clamp recordings in collicular slices from either rats or GAD67-GFP knock-in mice, in which GABAergic neurons could be identified by their expression of green fluorescence protein (GFP). Antidromic electrical stimulation of SGI premotor cells was produced by applying pulse currents where their axons congregate after exiting the superior colliculus. The stimulation evoked monosynaptic excitatory postsynaptic currents (EPSCs) in SGI GABAergic neurons that project to SL, as would be predicted if these neurons receive excitatory input from the premotor cells. Second, inhibitory postsynaptic currents (IPSCs) were evoked in SL neurons, some of which project to the visual thalamus. These IPSCs were polysynaptically mediated by the GABAergic neurons that were excited by the antidromically activated SGI neurons. These results support the hypothesis that collaterals of premotor neuron axons excite GABAergic neurons that inhibit SL visuosensory cells.
PMCID: PMC3269755  PMID: 21307233
visuomotor integration; inhibitory feedback; in vitro slices; mice; rats

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