Plastic changes in the distribution and soma size of retinal ganglion cells after neonatal monocular enucleation in rats.

Using the method of retrograde labeling of ganglion cells with HRP, we studied in adult rats the plastic changes in the retinogeniculate projections due to monocular enucleations shortly after birth. Four normal and 6 neonatally enucleated rats were used. In two of the normal and 4 of the enucleated rats a small amount of HRP was injected into the dorsal lateral geniculate nucleus (LGd) and in 4 other rats massive injections were made into the optic tract near the LGd. Neonatally unilaterally eye-enucleated rats were characterized by an expanded distribution of ipsilaterally projecting ganglion cells all over the retina of the remaining eye and by a densely packed distribution of these cells in the lower temporal retina in which area these cells have only a moderate density in normal rats. On the contrary, in the lower temporal retina of monocularly enucleated rats the incidence of contralaterally projecting ganglion cells was decreased. Soma areas of ipsi- and contralaterally projecting ganglion cells were measured for the peripheral crescent in lower temporal and lower nasal retinas. As compared with normal rats, neonatally enucleated rats had a larger mean soma area of ipsilaterally projecting cells and a smaller mean soma area of contralaterally projecting cells. This result was interpreted as suggesting that after neonatal monocular enucleation medium to large cells had changed their side of axonal projection from the contralateral to ipsilateral LGd.