GABAA, GABAC and glycine receptor-mediated inhibition differentially affects light-evoked signalling from mouse retinal rod bipolar cells

doi:10.1113/jphysiol.2005.103648

Neuroscience

GABA_A, GABA_C and glycine receptor-mediated inhibition differentially affects light-evoked signalling from mouse retinal rod bipolar cells

Erika D. Eggers¹ and Peter D. Lukasiewicz¹

¹ Department of Ophthalmology and Visual Sciences, Washington University, St Louis, MO 63110, USA

Rod bipolar cells relay visual signals evoked by dim illuminationfrom the outer to the inner retina. GABAergic and glycinergicamacrine cells contact rod bipolar cell terminals, where theymodulate transmitter release and contribute to the receptivefield properties of third order neurones. However, it is notknown how these distinct inhibitory inputs affect rod bipolarcell output and subsequent retinal processing. To determinewhether GABA_A, GABA_C and glycine receptors made different contributionsto light-evoked inhibition, we recorded light-evoked inhibitorypostsynaptic currents (L-IPSCs) from rod bipolar cells mediatedby each pharmacologically isolated receptor. All three receptorscontributed to L-IPSCs, but their relative roles differed; GABA_Creceptors transferred significantly more charge than GABA_A andglycine receptors. We determined how these distinct inhibitoryinputs affected rod bipolar cell output by recording light-evokedexcitatory postsynaptic currents (L-EPSCs) from postsynapticAII and A17 amacrine cells. Consistent with their relative contributionsto L-IPSCs, GABA_C receptor activation most effectively reducedthe L-EPSCs, while glycine and GABA_A receptor activation reducedthe L-EPSCs to a lesser extent. We also found that GABAergicL-IPSCs in rod bipolar cells were limited by GABA_A receptor-mediatedinhibition between amacrine cells. We show that GABA_A, GABA_Cand glycine receptors mediate functionally distinct inhibitionto rod bipolar cells, which differentially modulated light-evokedrod bipolar cell output. Our findings suggest that modulatingthe relative proportions of these inhibitory inputs could changethe characteristics of rod bipolar cell output.

(Received 14 December 2005; accepted after revision 23 January 2006; first published online 26 January 2006)
Corresponding author P. D. Lukasiewicz: Department of Ophthalmology, Campus Box 8096, Washington University School of Medicine, 660 S. Euclid Avenue, St Louis, MO 63110, USA. Email: lukasiewicz{at}vision.wustl.edu

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