Inhibitory circuitry involving Y cells and Y retinal terminals in the C laminae of the cat dorsal lateral geniculate nucleus.

We previously established (Datskovskaia et al. [2001] J Comp Neurol 430:85-100) that roughly 40% of Y retinal terminals contact interneurons in the A lamina of the dorsal lateral geniculate nucleus (dLGN) of the cat. However, we did not establish whether the dendritic terminals of interneurons postsynaptic to Y retinal terminals subsequently contact Y thalamocortical cells. To begin to address this issue, we examined the synaptic targets of Y retinal terminals in the magnocellular C lamina of the dLGN, which is populated almost exclusively by Y thalamocortical cells and interneurons. We utilized material generated from our previous work, in which we injected the superior colliculus with biotinylated dextran amine to backfill the geniculate branches of Y retinogeniculate axons in the dLGN. Sections prepared for electron microscopy were stained for gamma aminobutyric acid (GABA) to distinguish interneurons from thalamocortical cells. We found that the majority of profiles postsynaptic to Y retinal axons were the GABA-negative dendrites of thalamocortical cells (116/200, 58%). The remainder were GABA-positive dendrites of interneurons (84/200, 42%), many of which contained vesicles (F2 profiles; 54/200, 27%). In addition, we examined the synaptic targets of F2 profiles and found that almost all contacts of F2 profiles in the magnocellular C lamina were made onto the GABA-negative dendrites of thalamocortical cells (199/200, 99.5%). Thus, Y retinogeniculate axons contact interneurons and interneurons contact Y thalamocortical cells in the magnocellular C lamina of the dLGN. This indicates that interneurons are involved in modulation of the Y pathway.
(Copyright 2003 Wiley-Liss, Inc.)