Author:
BERNTSON AMY,SMITH ROBERT G.,TAYLOR W. ROWLAND
Abstract
Light-evoked currents were recorded from rod bipolar cells in a
dark-adapted mouse retinal slice preparation. Low-intensity light steps
evoked a sustained inward current. Saturating light steps evoked an
inward current with an initial peak that inactivated, with a time
constant of about 60–70 ms, to a steady plateau level that was
maintained for the duration of the step. The inactivation was strongest
at hyperpolarized potentials, and absent at positive potentials.
Inactivation was mediated by an increase in the intracellular calcium
concentration, as it was abolished in cells dialyzed with 10 mM BAPTA,
but was present in cells dialyzed with 1 mM EGTA. Moreover, responses
to brief flashes of light were broader in the presence of intracellular
BAPTA indicating that the calcium feedback actively shapes the time
course of the light responses. Recovery from inactivation observed for
paired-pulse stimuli occurred with a time constant of about 375 ms.
Calcium feedback could act to increase the dynamic range of the bipolar
cells, and to reduce variability in the amplitude and duration of the
single-photon signal. This may be important for nonlinear processing at
downstream sites of convergence from rod bipolar cells to AII amacrine
cells. A model in which intracellular calcium rapidly binds to the
light-gated channel and reduces the conductance can account for the
results.
Publisher
Cambridge University Press (CUP)
Subject
Sensory Systems,Physiology
Cited by
30 articles.
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