| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 2039002 | Cell Reports | 2016 | 7 Pages |
•VGluT3-expressing amacrine cells (VG3-ACs) are dual transmitter neurons•VG3-ACs provide purely glycinergic input to Suppressed-by-Contrast RGCs (SbC-RGCs)•VG3-ACs form synapses on processes linking ON and OFF arbors of SbC-RGC dendrites•VG3-ACs shape responses of SbC-RGCs in a contrast- and size-selective manner
SummaryNeurons that release more than one transmitter exist throughout the CNS. Yet, how these neurons deploy multiple transmitters and shape the function of specific circuits is not well understood. VGluT3-expressing amacrine cells (VG3-ACs) provide glutamatergic input to ganglion cells activated by contrast and motion. Using optogenetics, we find that VG3-ACs provide selective glycinergic input to a retinal ganglion cell type suppressed by contrast and motion (SbC-RGCs). Firing of SbC-RGCs is suppressed at light ON and OFF over a broad range of stimulus sizes. Anatomical circuit reconstructions reveal that VG3-ACs form inhibitory synapses preferentially on processes that link ON and OFF arbors of SbC-RGC dendrites. Removal of VG3-ACs from mature circuits reduces inhibition and attenuates spike suppression of SbC-RGCs in a contrast- and size-selective manner, illustrating the modularity of retinal circuits. VG3-ACs thus use dual transmitters in a target-specific manner and shape suppressive contrast responses in the retina by glycinergic transmission.
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