GABAA presynaptic inhibition regulates the gain and kinetics of retinal output neurons
Output signals of neural circuits, including the retina, are shaped by a combination of excitatory and inhibitory signals. Inhibitory signals can act presynaptically on axon terminals to control neurotransmitter release and regulate circuit function. However, it has been difficult to study the role...
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eLife Sciences Publications Ltd
2021-04-01
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| Series: | eLife |
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| Online Access: | https://elifesciences.org/articles/60994 |
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doaj-3cb327bab6484ef3b7bea78a5f3281f12021-05-13T14:10:14ZengeLife Sciences Publications LtdeLife2050-084X2021-04-011010.7554/eLife.60994GABAA presynaptic inhibition regulates the gain and kinetics of retinal output neuronsJenna Nagy0Briana Ebbinghaus1Mrinalini Hoon2Raunak Sinha3https://orcid.org/0000-0002-7553-1274Department of Neuroscience, University of Wisconsin, Madison, United States; McPherson Eye Research Institute, University of Wisconsin, Madison, United States; Cellular and Molecular Pathology Training Program, University of Wisconsin, Madison, United StatesMcPherson Eye Research Institute, University of Wisconsin, Madison, United States; Department of Ophthalmology and Visual Sciences, University of Wisconsin, Madison, United States; Neuroscience Training Program, University of Wisconsin, Madison, United StatesDepartment of Neuroscience, University of Wisconsin, Madison, United States; McPherson Eye Research Institute, University of Wisconsin, Madison, United States; Department of Ophthalmology and Visual Sciences, University of Wisconsin, Madison, United StatesDepartment of Neuroscience, University of Wisconsin, Madison, United States; McPherson Eye Research Institute, University of Wisconsin, Madison, United States; Department of Ophthalmology and Visual Sciences, University of Wisconsin, Madison, United StatesOutput signals of neural circuits, including the retina, are shaped by a combination of excitatory and inhibitory signals. Inhibitory signals can act presynaptically on axon terminals to control neurotransmitter release and regulate circuit function. However, it has been difficult to study the role of presynaptic inhibition in most neural circuits due to lack of cell type-specific and receptor type-specific perturbations. In this study, we used a transgenic approach to selectively eliminate GABAA inhibitory receptors from select types of second-order neurons – bipolar cells – in mouse retina and examined how this affects the light response properties of the well-characterized ON alpha ganglion cell retinal circuit. Selective loss of GABAA receptor-mediated presynaptic inhibition causes an enhanced sensitivity and slower kinetics of light-evoked responses from ON alpha ganglion cells thus highlighting the role of presynaptic inhibition in gain control and temporal filtering of sensory signals in a key neural circuit in the mammalian retina.https://elifesciences.org/articles/60994retinaGABA receptorbipolar cellganglion cellpresynaptic inhibition |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Jenna Nagy Briana Ebbinghaus Mrinalini Hoon Raunak Sinha |
| spellingShingle |
Jenna Nagy Briana Ebbinghaus Mrinalini Hoon Raunak Sinha GABAA presynaptic inhibition regulates the gain and kinetics of retinal output neurons eLife retina GABA receptor bipolar cell ganglion cell presynaptic inhibition |
| author_facet |
Jenna Nagy Briana Ebbinghaus Mrinalini Hoon Raunak Sinha |
| author_sort |
Jenna Nagy |
| title |
GABAA presynaptic inhibition regulates the gain and kinetics of retinal output neurons |
| title_short |
GABAA presynaptic inhibition regulates the gain and kinetics of retinal output neurons |
| title_full |
GABAA presynaptic inhibition regulates the gain and kinetics of retinal output neurons |
| title_fullStr |
GABAA presynaptic inhibition regulates the gain and kinetics of retinal output neurons |
| title_full_unstemmed |
GABAA presynaptic inhibition regulates the gain and kinetics of retinal output neurons |
| title_sort |
gabaa presynaptic inhibition regulates the gain and kinetics of retinal output neurons |
| publisher |
eLife Sciences Publications Ltd |
| series |
eLife |
| issn |
2050-084X |
| publishDate |
2021-04-01 |
| description |
Output signals of neural circuits, including the retina, are shaped by a combination of excitatory and inhibitory signals. Inhibitory signals can act presynaptically on axon terminals to control neurotransmitter release and regulate circuit function. However, it has been difficult to study the role of presynaptic inhibition in most neural circuits due to lack of cell type-specific and receptor type-specific perturbations. In this study, we used a transgenic approach to selectively eliminate GABAA inhibitory receptors from select types of second-order neurons – bipolar cells – in mouse retina and examined how this affects the light response properties of the well-characterized ON alpha ganglion cell retinal circuit. Selective loss of GABAA receptor-mediated presynaptic inhibition causes an enhanced sensitivity and slower kinetics of light-evoked responses from ON alpha ganglion cells thus highlighting the role of presynaptic inhibition in gain control and temporal filtering of sensory signals in a key neural circuit in the mammalian retina. |
| topic |
retina GABA receptor bipolar cell ganglion cell presynaptic inhibition |
| url |
https://elifesciences.org/articles/60994 |
| work_keys_str_mv |
AT jennanagy gabaapresynapticinhibitionregulatesthegainandkineticsofretinaloutputneurons AT brianaebbinghaus gabaapresynapticinhibitionregulatesthegainandkineticsofretinaloutputneurons AT mrinalinihoon gabaapresynapticinhibitionregulatesthegainandkineticsofretinaloutputneurons AT raunaksinha gabaapresynapticinhibitionregulatesthegainandkineticsofretinaloutputneurons |
| _version_ |
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