Abstract
The ON visual pathway is initiated by the deactivation of mGluR6, coupled to the opening of TRPM1 channels in retinal ON-bipolar cell dendrites. Here, we show that a second metabotropic glutamate receptor, mGluR5, is localized with TRPM1 and mGluR6 in the dendrites of ON-bipolar cells. To examine the function of mGluR5, we performed electroretinogram (ERG) recordings in mice of either sex and found that the amplitude of the b-wave, which is primarily a measure of ON-bipolar cell light-driven activity, is reduced in mGluR5 knock-out mice compared with wild type. In the mGluR5(-/-) retina, we observed weaker mGluR6 immunofluorescence in the dendritic tips of ON-bipolar cells that could explain the smaller ERG b-wave. To observe the effect of mGluR5 without perturbing mGluR6 expression, wild-type mice were injected with MTEP, an allosteric antagonist of mGluR5. MTEP increased the amplitude of the b-wave in response to dim stimuli and caused an inflection in the intensity-response plot for flashes in the mesopic range. In the brain, postsynaptic mGluR5 regulates presynaptic glutamate release via endocanabinoid-mediated retrograde signaling. Therefore, we tested the effect of the CB1 receptor antagonist, SR1417A, on the ERG and found that the b-wave was affected as by MTEP, including an inflection in the intensity-response. We further showed that the CB1 receptor agonist, ACEA, reversed the effects of MTEP. Together, our results indicate that mGluR5 plays a role in gain-control at the photoreceptor to ON-bipolar cell synapses, likely via an endocannabinoid-mediated retrograde feedback.