The separation of OFF pathways that signal light decrements from ON
pathways that signal light increments occurs at the first retinal synapse.
The dendrites of OFF bipolar cells abut the cone pedicle at basal
positions distal to the site of glutamate release and express ligand-gated
or ionotropic glutamate receptors (GluR). The dendrites of ON bipolar
cells penetrate narrow invaginations of the cone pedicle proximal to the
site of release and express the G-protein-coupled, metabotropic glutamate
receptor, mGluR6. However, recent studies demonstrating the expression of
GluR subunits in the rodent rod bipolar cell, known to yield an ON
response to light, call this basic segregation of receptors into question.
The light-microscopic distribution of many glutamate receptors in the
primate retina is now well established. We reexamined their
ultrastructural localization in the outer retina of Macaca
fascicularis to test systematically whether invaginating dendrites at
the cone synapse, presumably from ON bipolar cells, also express one or
more ionotropic subunits. Using preembedding immunocytochemistry for
electron microscopy, we quantified the distribution of the AMPA-sensitive
subunits GluR2/3 and GluR4 and of the kainate-sensitive subunits
GluR6/7 across 207 labeled dendrites occupying specific morphological
loci at the cone pedicle. We report, in agreement with published
investigations, that the majority of labeled processes for GluR2/3
(70%) and GluR4 (67%) either occupy basal positions or arise from
horizontal cells. For GluR6/7, we find a significantly lower fraction
of labeled processes at these positions (47%). We also find a considerable
number of labeled dendrites for GluR2/3 (10%), GluR4 (21%), and
GluR6/7 (18%) at invaginating positions. Surprisingly, for each
subunit, the remainder of labeled processes corresponds to
“fingers” of presynaptic cytoplasm within the cone
invagination.