Physiological Characterization of Synaptic Inputs to Inhibitory Burst Neurons From the Rostral and Caudal Superior Colliculus

doi:10.1152/jn.00502.2004

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Physiological Characterization of Synaptic Inputs to Inhibitory Burst Neurons From the Rostral and Caudal Superior Colliculus

Y. Sugiuchi, Y. Izawa, M. Takahashi, J. Na and Y. Shinoda

Department of Systems Neurophysiology, Graduate School of Medicine, Tokyo Medical and Dental University, Tokyo, Japan

Submitted 12 May 2004; accepted in final form 6 September 2004

The caudal superior colliculus (SC) contains movement neuronsthat fire during saccades and the rostral SC contains fixationneurons that fire during visual fixation, suggesting potentiallydifferent functions for these 2 regions. To study whether theseareas might have different projections, we characterized synapticinputs from the rostral and caudal SC to inhibitory burst neurons(IBNs) in anesthetized cats. We recorded intracellular potentialsfrom neurons in the IBN region and identified them as IBNs basedon their antidromic activation from the contralateral abducensnucleus and short-latency excitation from the contralateralcaudal SC and/or single-cell morphology. IBNs received disynapticinhibition from the ipsilateral caudal SC and disynaptic inhibitionfrom the rostral SC on both sides. Stimulation of the contralateralIBN region evoked monosynaptic inhibition in IBNs, which wasenhanced by preconditioning stimulation of the ipsilateral caudalSC. A midline section between the IBN regions eliminated inhibitionfrom the ipsilateral caudal SC, but inhibition from the rostralSC remained unaffected, indicating that the latter inhibitionwas mediated by inhibitory interneurons other than IBNs. A transversesection of the brain stem rostral to the pause neuron (PN) regioneliminated inhibition from the rostral SC, suggesting that thisinhibition is mediated by PNs. These results indicate that themost rostral SC inhibits bilateral IBNs, most likely via PNs,and the more caudal SC exerts monosynaptic excitation on contralateralIBNs and antagonistic inhibition on ipsilateral IBNs via contralateralIBNs. The most rostral SC may play roles in maintaining fixationby inhibition of burst neurons and facilitating saccadic initiationby releasing their inhibition.

Address for reprint requests and other correspondence: Y. Shinoda, Department of Systems Neurophysiology, Graduate School of Medicine, Tokyo Medical and Dental University, 1-5-45, Yushima, Bunkyo-ku, Tokyo 113-8519, Japan (E-mail: yshinoda.phy1{at}tmd.ac.jp)

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