Cell type specific tracing of the subcortical input to primary visual cortex from the basal forebrain

The basal forebrain provides cholinergic inputs to primary visual cortex (V1) that play a key modulatory role on visual function. While basal forebrain afferents terminate in the infragranular layers of V1, acetylcholine is delivered to more superficial layers through volume transmission. Neverthele...

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Veröffentlicht in:	Journal of comparative neurology (1911) 2019-02, Vol.527 (3), p.589-599
Hauptverfasser:	Lean, Georgina A., Liu, Yong‐Jun, Lyon, David C.
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Sprache:	eng
Schlagworte:	Acetylcholine Basal forebrain cholinergic cortical inhibition cortical layers diagonal band Forebrain GABAergic Helper viruses inhibitory neurons Lateral geniculate nucleus Lyssavirus Rabies RRID:AB_477652 RRID:AB_523902 subcortical Synaptic transmission Visual cortex Visual perception
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container_title	Journal of comparative neurology (1911)
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creator	Lean, Georgina A. Liu, Yong‐Jun Lyon, David C.
description	The basal forebrain provides cholinergic inputs to primary visual cortex (V1) that play a key modulatory role on visual function. While basal forebrain afferents terminate in the infragranular layers of V1, acetylcholine is delivered to more superficial layers through volume transmission. Nevertheless, direct synaptic contact in deep layers 5 and 6 may provide a more immediate effect on V1 modulation. Using helper viruses with cell type specific promoters to target retrograde infection of pseudotyped and genetically modified rabies virus evidence was found for direct synaptic input onto V1 inhibitory neurons. These inputs were similar in number to geniculocortical inputs and, therefore, considered robust. In contrast, while clear evidence for dorsal lateral geniculate nucleus input to V1 excitatory neurons was found, there was no evidence of direct synaptic input from the basal forebrain. These results suggest a direct and more immediate influence of the basal forebrain on local V1 inhibition. The basal forebrain provides a modulatory cholinergic input to cerebral cortex through volume transmission which allows access to receptors throughout all cortical layers. Direct synaptic inputs are also present in deep layers. The paper used a dual viral retrograde tracing technique to show that basal forebrain inputs synapse directly onto inhibitory, but not excitatory neurons in primary visual cortex (V1), suggesting a more immediate modulatory role on local inhibition
doi_str_mv	10.1002/cne.24412
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While basal forebrain afferents terminate in the infragranular layers of V1, acetylcholine is delivered to more superficial layers through volume transmission. Nevertheless, direct synaptic contact in deep layers 5 and 6 may provide a more immediate effect on V1 modulation. Using helper viruses with cell type specific promoters to target retrograde infection of pseudotyped and genetically modified rabies virus evidence was found for direct synaptic input onto V1 inhibitory neurons. These inputs were similar in number to geniculocortical inputs and, therefore, considered robust. In contrast, while clear evidence for dorsal lateral geniculate nucleus input to V1 excitatory neurons was found, there was no evidence of direct synaptic input from the basal forebrain. These results suggest a direct and more immediate influence of the basal forebrain on local V1 inhibition. The basal forebrain provides a modulatory cholinergic input to cerebral cortex through volume transmission which allows access to receptors throughout all cortical layers. Direct synaptic inputs are also present in deep layers. 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subjects	Acetylcholine Basal forebrain cholinergic cortical inhibition cortical layers diagonal band Forebrain GABAergic Helper viruses inhibitory neurons Lateral geniculate nucleus Lyssavirus Rabies RRID:AB_477652 RRID:AB_523902 subcortical Synaptic transmission Visual cortex Visual perception
title	Cell type specific tracing of the subcortical input to primary visual cortex from the basal forebrain
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