Abstract
The superior colliculus receives a direct projection from retinal ganglion cells. In primates, it remains unknown if the same ganglion cells also supply the lateral geniculate nucleus. To address this issue, a double-label experiment was performed in 2 male macaques. The animals fixated a target while injection sites were scouted in the superior colliculus by recording and stimulating with a tetrode. Once suitable sites were identified, cholera toxin - subunit B Alexa Fluor 488 was injected via an adjacent micropipette. In a subsequent acute experiment, cholera toxin subunit B - Alexa Fluor 555 was injected into the lateral geniculate nucleus at matching retinotopic locations. After a brief survival period, ganglion cells were examined in retinal flatmounts. The percentage of double-labeled cells varied locally, depending on the relative efficiency of retrograde transport by each tracer and the precision of retinotopic overlap of injection sites in each target nucleus. In counting boxes with extensive overlap, 76-98% of ganglion cells projecting to the superior colliculus were double-labeled. Cells projecting to the superior colliculus constituted 4.0 – 6.7% of the labeled ganglion cell population. In one particularly large zone, there were 5,746 cells labeled only by CTB-AF555, 561cells double-labeled by CTB-AF555 and CTB-AF488, but no cell labeled only by CTB-AF488. These data indicate that retinal input to the macaque superior colliculus arises from a collateral axonal branch supplied by about 5% of the ganglion cells that project to the lateral geniculate nucleus. Surprisingly, there exist no ganglion cells that project exclusively to the SC.
Significance statement The retina contains a multitude of ganglion cell classes, projecting in parallel to different brain targets. The superior colliculus receives retinal input, but its source remains controversial. In two macaques, a green tracer was injected into the superior colliculus and an orange tracer into the lateral geniculate nucleus. When retinotopic overlap was optimal, ganglion cells containing the green tracer were also labeled by the orange tracer. This finding indicates that retinal input to the superior colliculus arises from axon collaterals of ganglion cells that project to the lateral geniculate nucleus, even though these two retinal targets serve utterly different functions. The next challenge is to determine the purpose of this projection and why it is shared.
Footnotes
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This work was supported by grants R01-EY029703 and administrative supplement R01-EY029703-05S1 (J.C.H.) and EY02162 (Vision Core Grant) from the National Eye Institute and by an unrestricted grant from Research to Prevent Blindness. The California National Primate Research Center is supported by a Base Grant from the NIH Office of the Director, OD011107. The authors declare no competing financial interests.