LAMINAR ORGANIZATION OF RECEPTIVE-FIELD PROPERTIES IN THE DORSAL LATERAL GENICULATE-NUCLEUS OF THE TREE SHREW (TUPAIAGLIS-BELANGERI)

A laminar analysis of the receptive field properties of relay cells in the binocular region of the tree shrew dorsal lateral geniculate nucl eus (LGN) found three main subdivisions. Lamina 1 (receiving ipsilater al eye input) and lamina 2 (contralateral) comprise a pair of layers t hat contain only ON-center neurons. Laminae 4 (contralateral) and 5 (i psilateral) comprise a pair of layers with mostly OFF-center cells (86 %). Laminae 3 and 6 (both contralaterally innervated) also form a dist inct pair, although lamina 3 contains a mixture of cells with ON-cente rs (43%) or OFF-centers (57%), and lamina 6 contains mostly cells with ON-OFF centers and suppressive surrounds (81%). Cells located in the interlaminar zones resembled neurons in laminae 3 and 6. In comparison with the cells in the OFF-center laminae 4 and 5, the ON-center cells in laminae 1 and 2 had smaller, more elliptical receptive field cente rs with stronger responses to flashed visual stimuli. In addition, cel ls in the ipsilateral eye laminae 1 and 5 showed a greater change in c enter diameter, with eccentricity from the area centralis, than cells in the contralateral eye laminae 2 and 4. Principal components analysi s using six receptive field properties (latency to optic chiasm stimul ation, receptive field center diameter, maintained discharge rate, res ponse onset latency, peak spike density, and phasic-tonic index) sugge sted that the cells in laminae 3 and 6 and the interlaminar zones are W-like. Principal components analysis of the same receptive field prop erties in laminae 1, 2, 4, and 5 did not reveal differences clearly re lated to X-like (parvocellular) and Y-like (magnocellular) categories. Ninety-seven percent of the cells tested for linearity of spatial sum mation in laminae 1, 2, 4, and 5 were linear. We conclude that the dom inant organizational features of the tree shrew LGN are the ON-center, OFF-center, and W pairs of layers that project to different regions w ithin the striate cortex. (C) 1995 Wiley-Liss, Inc.