Modulation by Zn2+ of GABA responses in bipolar cells of the mouse retina

M. KANEDA; B. ANDRÁSFALVY; A. KANEKO

doi:10.1017/S0952523800172098

Abstract

The localization of endogenous Zn2+ in the mouse retina was examined histochemically and the inhibitory action of Zn2+ on GABA-induced responses was studied in bipolar cells isolated from the mouse retina. Accumulation of endogenous Zn2+ was detected in photoreceptors, bipolar, and/or amacrine cells by either the bromopyridylazo-diethylaminophenol method or the dithizone method. Under whole-cell recording conditions, GABA induced a Cl− current in isolated bipolar cells. The current consisted of two components. The first component was inhibited completely by application of 100 μM bicuculline, suggesting that this is a GABAA-receptor mediated current. The second component was inhibited completely by 100 μM 3-aminopropyl-(methyl)-phosphinic acid, suggesting that this is a GABAC-receptor mediated current. GABAC receptors were present at a higher density on the axon terminal than on dendrites. Zn2+ inhibited both GABAA and GABAC receptors. GABAC receptors were more susceptible to Zn2+; the IC50 for the GABAA receptor was 67.4 μM and that for the GABAC receptor was 1.9 μM. These results suggest that Zn2+ modulates the inhibitory interaction between amacrine and bipolar cells, particularly that mediated by the GABAC receptor.

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Modulation by Zn2+ of GABA responses in bipolar cells of the mouse retina

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Modulation by Zn2+ of GABA responses in bipolar cells of the mouse retina

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