Abstract
Phosducin is an abundant photoreceptor protein that binds G-protein βγ subunits and plays a role in modulating synaptic transmission at photoreceptor synapses under both dark-adapted and light-adapted conditions in vivo. To examine the role of phosducin at the rod-to-rod bipolar cell (RBC) synapse, we used whole-cell voltage clamp recordings to measure the light-evoked currents from both wild-type (WT) and phosducin knockout (Pd−/−) RBCs, in dark- and light-adapted retinal slices. Pd−/−RBCs showed smaller dim flash responses and steeper intensity-response relationships than WT RBCs, consistent with the smaller rod responses being selectively filtered out by the non-linear threshold at the rod-to-rod bipolar synapse. In addition, Pd−/− RBCs showed a marked delay in the onset of the light-evoked currents, similar to that of a WT response to an effectively dimmer flash. Comparison of the changes in flash sensitivity in the presence of steady adapting light revealed that Pd−/− RBCs desensitized less than WT RBCs to the same intensity. These results are quantitatively consistent with the smaller single photon responses of Pd−/− rods, owing to the known reduction in rod G-protein expression levels in this line. The absence of an additional synaptic phenotype in these experiments suggests that the function of phosducin at the photoreceptor synapse is abolished by the conditions of retinal slice recordings.
Highlights
Phosducin is one of the most highly expressed proteins in photoreceptors, yet its specific function in rods and cones has remained elusive
Reduced dim flash sensitivity of rod bipolar cells in mice lacking phosducin To investigate the role of phosducin at the rod-RBC synapse, we performed whole cell voltage-clamp recordings to measure the light-evoked currents of WT and Pd2/2 RBCs
Responses were consistently evoked in WT and Pd2/2 RBCs by flash strengths of 1 photon/mm2 and cells from both genotypes were generally driven to saturation by flash strengths of 75 photons/mm2, estimated to produce approximately 30 photoisomerizations per rod (R*/rod)
Summary
Phosducin is one of the most highly expressed proteins in photoreceptors, yet its specific function in rods and cones has remained elusive. After taking into account the aforementioned decrease in sensitivity of Pd2/2 rod outer segments [5], the bwave intensity-response functions of Pd2/2 mice were shifted by a factor of 2.7 toward brighter intensities, and exhibited less desensitization in steady light, than those of WT mice. These differences were observed in both rod and cone pathways and attributed to the effects of phosducin at the synaptic terminal of photoreceptors [10]
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