Morphological differentiation of bipolar cells in the ferret retina
Bipolar cells are not only important for visual processing but input from these cells may underlie the reorganization of ganglion cell dendrites in the inner plexiform layer (IPL) during development. Because little is known about the development of bipolar cells, here we have used immunocytochemical...
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Veröffentlicht in: | Visual neuroscience 1999-11, Vol.16 (6), p.1133-1144 |
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Zusammenfassung: | Bipolar cells are not only important for visual
processing but input from these cells may underlie the
reorganization of ganglion cell dendrites in the inner
plexiform layer (IPL) during development. Because little
is known about the development of bipolar cells, here we
have used immunocytochemical markers and dye labeling to
identify and follow their differentiation in the neonatal
ferret retina. Putative cone bipolar cells were immunoreacted
for calbindin and recoverin, and rod bipolar cells were
immunostained for protein kinase C (PKC). Our results show
that calbindin-immunoreactive cone bipolar cells appear
at postnatal day 15 (P15), at which time their axonal terminals
are already localized to the inner half of the IPL. By
contrast, recoverin-immunoreactive cells with terminals
in the IPL are present at birth, but many of these cells
may be immature photoreceptors. By the second postnatal
week, recoverin-positive cells resembling cone bipolar
cells were clearly present, and with increasing age, two
distinct strata of immunolabeled processes occupied the
IPL. PKC-containing rod bipolar cells emerged by the fourth
postnatal week and at this age have stratified arbors in
the inner IPL. The early bias of bipolar axonal arbors
in terminating in the inner or outer half of the IPL is
confirmed by dye labeling of cells with somata in the inner
nuclear layer. At P10, several days before ribbon synapses
have been previously observed in the ferret IPL, the axon
terminals of all dye-labeled bipolar cells were clearly
stratified. The results suggest that bipolar cells could
provide spatially localized interactions that are suitable
for guiding dendritic lamination in the inner retina. |
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ISSN: | 0952-5238 1469-8714 |
DOI: | 10.1017/S0952523899166136 |