[HTML][HTML] Survey on amacrine cells coupling to retrograde-identified ganglion cells in the mouse retina

JJ Pang, DL Paul, SM Wu - Investigative Ophthalmology & …, 2013 - jov.arvojournals.org
JJ Pang, DL Paul, SM Wu
Investigative Ophthalmology & Visual Science, 2013jov.arvojournals.org
Purpose.: Retinal amacrine cells (ACs) may make inhibitory chemical synapses and
potentially excitatory gap junctions on ganglion cells (GCs). The total number and subtypes
of ACs coupled to the entire GC population were investigated in wild-type and three lines of
transgenic mice. Methods.: GCs and GC-coupled ACs were identified by the previously
established LY-NB (Lucifer yellow–Neurobiotin) retrograde double-labeling technique, in
conjunction with specific antibodies and confocal microscopy. Results.: GC-coupled ACs …
Abstract
Purpose.: Retinal amacrine cells (ACs) may make inhibitory chemical synapses and potentially excitatory gap junctions on ganglion cells (GCs). The total number and subtypes of ACs coupled to the entire GC population were investigated in wild-type and three lines of transgenic mice.
Methods.: GCs and GC-coupled ACs were identified by the previously established LY-NB (Lucifer yellow–Neurobiotin) retrograde double-labeling technique, in conjunction with specific antibodies and confocal microscopy.
Results.: GC-coupled ACs (NB-positive and LY-negative) comprised nearly 11% of displaced ACs and 4% of conventional ACs in wild-type mice, and were 9% and 4% of displaced ACs in Cx45−/− and Cx36/45−/− mice, respectively. Their somas were small in Cx36/45−/− mice, but variable in other strains. They were mostly γ-aminobutyric acid (GABA)-immunoreactive (IR) and located in the GC layer. They comprised only a small portion in the AC subpopulations, including GABA-IR, glycine-IR, calretinin-IR, 5-HT-accumulating, and ON-type choline acetyltransferase (ChAT) ACs in wild-type and ChAT transgenic mice (ChAT-tdTomato). In the distal 80% of the inner plexiform layer (IPL), dense GC dendrites coexisted with rich glycine-IR and GABA-IR. In the inner 20% of the IPL, sparse GC dendrites presented with a major GABA band and sparse glycine-IR.
Conclusions.: Various subtypes of ACs may couple to GCs. ACs of the same immunoreactivity may either couple or not couple to GCs. Cx36 and Cx45 dominate GC-AC coupling except for small ACs. The overall potency of GC-AC coupling is moderate, especially in the proximal 20% of the IPL, where inhibitory chemical signals are dominated by GABA ACs.
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