Immunocytochemistry was used to reveal a population
of bipolar cells that contain γ-atrial natriuretic
peptide 1–25 (γ-ANP) in turtle retina. This same
antibody was also used in rat retina as a comparative control.
The retinas were examined by both conventional light microscopy
and confocal microscopy with double-labeling to determine
whether protein kinase C-α-like immunoreactivity (PKC-α-LI)
was colocalized with the γ-ANP-LI. Some thick sections
of turtle retina immunostained with only the γ-ANP
antibody were also examined by electron microscopy. In
rat, a subpopulation of bipolar cells with axons terminating
close to the ganglion cell layer was labeled. Double-labeling
experiments indicated that the γ-ANP-LI and PKC-α-LI
were colocalized in rat retina, and thus all the bipolar
cells with γ-ANP-LI were rod bipolar cells. In turtle,
the γ-ANP antibody labeled certain bipolar cells that
were characterized by bistratified axon terminals arborizing
on the borders of strata S2/3 and S3/4 in the inner plexiform
layer (IPL). Double labeling with PKC-α antibody indicated
that bipolar cells with γ-ANP-LI were not the same
bipolar cell types with PKC-α-LI. Thus, γ-ANP-LI
appears to be a new marker for a distinct type of bipolar
cell in turtle retina. At the ultrastructural level, the
γ-ANP-LI was visible throughout the cytoplasm of the
bipolar cells from dendrites to axon terminals. In the
outer plexiform layer (OPL), labeled dendrites contacted
photoreceptor pedicles almost exclusively at narrow-cleft
basal junctions, but infrequently formed the central element
at a photoreceptor ribbon synapse. In the IPL, axon terminals
with γ-ANP-LI made ribbon synapses onto a combination
of amacrine and ganglion cells. Since narrow-cleft basal
junctions and photoreceptor ribbon-related junctions are
known to be associated with ON-center bipolar cells in
turtle, and since the axon terminals of bipolars with γ-ANP-LI
stratify primarily in the ON-strata of the IPL, we suggest
that these cells are likely to be ON-center cells. It is
possible that the γ-ANP may be involved in regulating
the activity of Na+/K+ ATPase or
in the modulation of cGMP levels.