GABAergic responses of acutely dissociated rat
retinal neurons, including both bipolar cells (BCs) and
other, morphologically round cells (RCs), were assayed
with the fluorescent (FL), voltage-sensitive probe oxonol
DiBaC4(5). Using intensified video microscopy
and simultaneous recording, GABA responses were identified
in one-third of cells in a typical microscope field; of
these 85% hyperpolarized (0.05–0.3 log unit FL decreases)
while the remainder depolarized (0.05–0.2 log unit
FL increases). GABA-sensitive cells were also TACA-sensitive
(trans-4-Aminocrotonic acid), and these ligands
appeared interchangeable in ability to evoke responses.
In RCs, an asymmetric co-responsive pattern was observed
between GABA- and muscimol-evoked events. Muscimol-sensitive
RCs responded well to GABA, but not all GABA-sensitive
RCs responded to muscimol. In GABA-sensitive BCs, muscimol
responses were typically weak or absent. Few BCs or RCs
responded to CACA (cis-4-Aminocrotonic acid).
Bicuculline-resistant GABA responses occurred in ∼80%
of GABA-responsive RCs and BCs. Both bicuculline-sensitive
(GABAA-like) and bicuculline-insensitive (GABAC-like)
responses were resistant to picrotoxin. Although a small
minority of GABA-sensitive cells hyperpolarized in response
to R(+)baclofen, bicuculline-insensitive responses were
not antagonized by 2-hydroxysaclofen, and were abolished
in low [Cl−]o. Results
suggested (1) that bicuculline-insensitive, Cl−-dependent,
GABAC-like responses were broadly distributed
and predominant among dissociated rat retinal neurons;
(2) that muscimol was a particularly weak agonist for rat
retinal BCs; and (3) that oxonol was a sensitive probe
for retinal GABA responses.