The Journal of Neurophysiology Vol. 78 No. 6 December 1997, pp. 3117-3124
Copyright ©1997 The American Physiological Society

Recurrent Inhibitory Interneurons of the Rabbit's Lateral Posterior-Pulvinar Complex

J. Julius Zhu and Fu-Sun Lo

Shanghai Brain Research Institute, Chinese Academy of Sciences, Shanghai 200031, China

Zhu, J. Julius and Fu-Sun Lo. Recurrent inhibitory interneurons of the rabbit's lateral posterior-pulvinar complex. J. Neurophysiol. 78: 3117-3124, 1997. We recorded from 118 neurons in the visual sector of the thalamic reticular nucleus (TRN) in anesthetized rabbits. Cells were identified by their location and characteristic burst responses to stimulation of the primary visual cortex (Cx) and optic chiasm (OX) and were classified into two groups. Type I cells had relatively short latencies from both OX and Cx stimulation, and the latency from OX was always longer than from Cx. In contrast, type II cells had much longer latencies after OX and Cx stimulation, and the latency from OX was always shorter than from Cx. Type I cells were located in the dorsal part of TRN, whereas type II cells were located in the ventral part of TRN. The physiological properties and location of type I TRN cells indicate that they are recurrent inhibitory interneurons of the dorsal lateral geniculate nucleus (LGN). Type II TRN cells most likely function as recurrent inhibitory interneurons for the lateral posterior nucleus-pulvinar complex (LP) because they could be activated antidromically by LP stimulation and orthodromically activated via axonal collaterals of LP cells. Type II TRN cells exhibited a prolonged depression after Cx or OX stimulation. Intracellular recordings showed that a prolonged inhibitory postsynaptic potential was evoked by Cx or OX stimulation. Therefore, these recurrent interneurons of LP, type II cells form mutual inhibitory connections just like those recurrent interneurons of LGN, type I cells. Our data suggest that the geniculocortical and extrageniculate visual pathways have similar recurrent inhibitory circuits.

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