D2-like dopamine receptors promote interactions between calcium and chloride channels that diminish rod synaptic transfer in the salamander retina

WALLACE B. THORESON; SALVATORE L. STELLA; ERIC J. BRYSON; JOHN CLEMENTS; PAUL WITKOVSKY

doi:10.1017/S0952523802192017

Abstract

Activation of D2-like dopamine receptors in rods with quinpirole stimulates L-type calcium currents (ICa). This result appears inconsistent with studies showing that D2-like dopamine receptor activation diminishes rod signals in second-order retinal neurons. Since small reductions in [Cl−]i can inhibit photoreceptor ICa, we tested the hypothesis that enhancement of ICa with the D2/D4 receptor agonist, quinpirole, increases calcium-activated chloride currents (ICl(Ca)) causing an efflux of Cl− from rods that would provide a negative feedback inhibition of ICa. In agreement with studies from Xenopus, quinpirole reduced rod input to second-order neurons of tiger salamander retina without significantly altering rod voltage responses. Quinpirole also diminished the amplitude of depolarization-evoked increases in [Ca2+]i measured with Fura-2 in rods, a finding consistent with inhibition of synaptic transmission from rods. Electrophysiological and Cl−-imaging experiments indicated ECl in rods is ∼ −20 mV. Quinpirole enhanced ICl(Ca) and elicited an efflux of Cl− at the resting potential. A similar Cl− efflux was produced by extracellular replacement of 24 mM Cl− with CH3SO4− and this low Cl− solution inhibited Ca2+responses to a similar degree as quinpirole did. When ICl(Ca) was inhibited with niflumic acid, quinpirole enhanced both ICa and depolarization-evoked increases in [Ca2+]i. Furthermore, with niflumic acid, quinpirole no longer inhibited rod inputs into horizontal and bipolar cells. These results suggest an initial enhancement of ICa by quinpirole is followed by a stimulation of Cl− currents, including ICl(Ca). The net result is a Cl− efflux that inhibits depolarization-evoked increases in [Ca2+]i and synaptic transmission from rods.

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D2-like dopamine receptors promote interactions between calcium and chloride channels that diminish rod synaptic transfer in the salamander retina

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D2-like dopamine receptors promote interactions between calcium and chloride channels that diminish rod synaptic transfer in the salamander retina

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