We have characterized a distinctive type of bistratified
amacrine cell in the rabbit retina at both the single cell
and population levels. These cells correspond to the “fountain”
amacrine cells recently identified by MacNeil and Masland
(1998). The fountain cells can be distinguished in superfused
retinal wholemounts labeled with nuclear dyes, thus enabling
them to be targeted for intracellular injection with Neurobiotin.
This revealed that the primary dendrites ascend steeply
to sublamina b of the inner plexiform layer, where
they form an irregular arbor at the border of strata 4
and 5. These dendrites then give rise to multiple varicose
processes that descend obliquely to sublamina a,
where they form a more extensive arbor in stratum 1. The
fountain amacrine cells show strong homologous tracer coupling
when injected with Neurobiotin, and this has enabled us
to map their density distribution across the retina and
to examine the dendritic relationships between neighboring
cells. The fountain amacrine cells range in density from
90 to 360 cells/mm2 and they account for 1.5%
of the amacrine cells in the rabbit retina. The thick tapering
dendrites in sublamina b form highly territorial
arbors that tile the retina with minimal overlap, whereas
the thin varicose processes intermingle in sublamina a.
The fountain cells are immunopositive for γ-aminobutyric
acid and immunonegative for glycine. We further propose
that these cells are homologous to the substance P-immunoreactive
(SP-IR) amacrine cells in the cat retina and that they
may account for a subset of the SP-IR amacrine cells in
the rabbit retina.