Binocular interactions play a prominent role in shaping the axonal arbors o
f geniculocortical fibers and the arbors of Y cells in the retinogeniculate
pathway of the fetal cat. Fiber interactions between the two eyes have als
o been suggested to regulate the formation of retinal projections to the do
rsal lateral geniculate nucleus (dlgn) of th fetal monkey, but whether this
reflects structural refinements of retinal arbors has not been established
. To address this issue, we quantified the morphologic properties of indivi
dual fibers in two macaque monkeys at embryonic day (E) 110 and E121 that h
ad an eye removed at E69 and E61, respectively. Fibers were labeled by DiI
crystals into the fixed optic tract and were visualized by confocal microsc
opy. Three measurements were made: the number of branch points within the a
xon terminal arbor, the total arborization length, and the incidence of axo
nal side branches on the preterminal axon within the confines of the genicu
late. There were no significant differences with respect to these parameter
s between the prenatal enucleates and normal monkeys of comparable age. Thi
s was the case for retinal fibers innervating the magnocellular and the par
vocellular segments of the dlgn. The arbors stemming from the remaining eye
were widely distributed in the dlgn, with some terminating in territories
normally innervated by the other (enucleated) eye. These results lend suppo
rt to the hypothesis that the expanded projection from the remaining eye to
the lateral geniculate nucleus of the prenatally enucleated monkey is due
to the maintenance of a contingent of retinal fibers normally eliminated by
ganglion cell death. (C) 2000 Wiley-Liss, Inc.