Neocortical Projection Neurons Instruct Inhibitory Interneuron Circuit Development in a Lineage-Dependent Manner

Jason C. Wester; Vivek Mahadevan; Christopher T. Rhodes; Daniela Calvigioni; Sanan Venkatesh; Dragan Maric; Steven Hunt; Xiaoqing Yuan; Yajun Zhang; Timothy J. Petros; Chris J. McBain

doi:10.1016/j.neuron.2019.03.036

Neocortical Projection Neurons Instruct Inhibitory Interneuron Circuit Development in a Lineage-Dependent Manner

Jason C. Wester, Vivek Mahadevan, Christopher T. Rhodes, Daniela Calvigioni, Sanan Venkatesh, Dragan Maric, Steven Hunt, Xiaoqing Yuan, Yajun Zhang, Timothy J. Petros, Chris J. McBain

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45 Scopus citations

Abstract

Neocortical circuits consist of stereotypical motifs that must self-assemble during development. Recent evidence suggests that the subtype identity of both excitatory projection neurons (PNs)and inhibitory interneurons (INs)is important for this process. We knocked out the transcription factor Satb2 in PNs to induce those of the intratelencephalic (IT)type to adopt a pyramidal tract (PT)-type identity. Loss of IT-type PNs selectively disrupted the lamination and circuit integration of INs derived from the caudal ganglionic eminence (CGE). Strikingly, reprogrammed PNs demonstrated reduced synaptic targeting of CGE-derived INs relative to controls. In control mice, IT-type PNs targeted neighboring CGE INs, while PT-type PNs did not in deep layers, confirming this lineage-dependent motif. Finally, single-cell RNA sequencing revealed that major CGE IN subtypes were conserved after loss of IT PNs, but with differential transcription of synaptic proteins and signaling molecules. Thus, IT-type PNs influence CGE-derived INs in a non-cell-autonomous manner during cortical development.

Original language	English
Pages (from-to)	960-975.e6
Journal	Neuron
Volume	102
Issue number	5
DOIs	https://doi.org/10.1016/j.neuron.2019.03.036
State	Published - 5 Jun 2019
Externally published	Yes

Keywords

circuits
cortex
development
embryonic lineage
interneuron
projection neuron
radial migration
single-cell RNA-sequencing
synaptic physiology

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10.1016/j.neuron.2019.03.036

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title = "Neocortical Projection Neurons Instruct Inhibitory Interneuron Circuit Development in a Lineage-Dependent Manner",

abstract = "Neocortical circuits consist of stereotypical motifs that must self-assemble during development. Recent evidence suggests that the subtype identity of both excitatory projection neurons (PNs)and inhibitory interneurons (INs)is important for this process. We knocked out the transcription factor Satb2 in PNs to induce those of the intratelencephalic (IT)type to adopt a pyramidal tract (PT)-type identity. Loss of IT-type PNs selectively disrupted the lamination and circuit integration of INs derived from the caudal ganglionic eminence (CGE). Strikingly, reprogrammed PNs demonstrated reduced synaptic targeting of CGE-derived INs relative to controls. In control mice, IT-type PNs targeted neighboring CGE INs, while PT-type PNs did not in deep layers, confirming this lineage-dependent motif. Finally, single-cell RNA sequencing revealed that major CGE IN subtypes were conserved after loss of IT PNs, but with differential transcription of synaptic proteins and signaling molecules. Thus, IT-type PNs influence CGE-derived INs in a non-cell-autonomous manner during cortical development.",

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author = "Wester, {Jason C.} and Vivek Mahadevan and Rhodes, {Christopher T.} and Daniela Calvigioni and Sanan Venkatesh and Dragan Maric and Steven Hunt and Xiaoqing Yuan and Yajun Zhang and Petros, {Timothy J.} and McBain, {Chris J.}",

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AU - Wester, Jason C.

AU - Mahadevan, Vivek

AU - Rhodes, Christopher T.

AU - Calvigioni, Daniela

AU - Venkatesh, Sanan

AU - Maric, Dragan

AU - Hunt, Steven

AU - Yuan, Xiaoqing

AU - Zhang, Yajun

AU - Petros, Timothy J.

AU - McBain, Chris J.

PY - 2019/6/5

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N2 - Neocortical circuits consist of stereotypical motifs that must self-assemble during development. Recent evidence suggests that the subtype identity of both excitatory projection neurons (PNs)and inhibitory interneurons (INs)is important for this process. We knocked out the transcription factor Satb2 in PNs to induce those of the intratelencephalic (IT)type to adopt a pyramidal tract (PT)-type identity. Loss of IT-type PNs selectively disrupted the lamination and circuit integration of INs derived from the caudal ganglionic eminence (CGE). Strikingly, reprogrammed PNs demonstrated reduced synaptic targeting of CGE-derived INs relative to controls. In control mice, IT-type PNs targeted neighboring CGE INs, while PT-type PNs did not in deep layers, confirming this lineage-dependent motif. Finally, single-cell RNA sequencing revealed that major CGE IN subtypes were conserved after loss of IT PNs, but with differential transcription of synaptic proteins and signaling molecules. Thus, IT-type PNs influence CGE-derived INs in a non-cell-autonomous manner during cortical development.

AB - Neocortical circuits consist of stereotypical motifs that must self-assemble during development. Recent evidence suggests that the subtype identity of both excitatory projection neurons (PNs)and inhibitory interneurons (INs)is important for this process. We knocked out the transcription factor Satb2 in PNs to induce those of the intratelencephalic (IT)type to adopt a pyramidal tract (PT)-type identity. Loss of IT-type PNs selectively disrupted the lamination and circuit integration of INs derived from the caudal ganglionic eminence (CGE). Strikingly, reprogrammed PNs demonstrated reduced synaptic targeting of CGE-derived INs relative to controls. In control mice, IT-type PNs targeted neighboring CGE INs, while PT-type PNs did not in deep layers, confirming this lineage-dependent motif. Finally, single-cell RNA sequencing revealed that major CGE IN subtypes were conserved after loss of IT PNs, but with differential transcription of synaptic proteins and signaling molecules. Thus, IT-type PNs influence CGE-derived INs in a non-cell-autonomous manner during cortical development.

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KW - projection neuron

KW - radial migration

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Neocortical Projection Neurons Instruct Inhibitory Interneuron Circuit Development in a Lineage-Dependent Manner

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Keywords

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