Transcriptional maintenance of cortical somatostatin interneuron subtype identity during migration

Hermany Munguba; Kasra Nikouei; Hannah Hochgerner; Polina Oberst; Alexandra Kouznetsova; Jesper Ryge; Ana Belén Muñoz-Manchado; Jennie Close; Renata Batista-Brito; Sten Linnarsson; Jens Hjerling-Leffler

doi:10.1016/j.neuron.2023.07.018

Transcriptional maintenance of cortical somatostatin interneuron subtype identity during migration

Hermany Munguba, Kasra Nikouei, Hannah Hochgerner, Polina Oberst, Alexandra Kouznetsova, Jesper Ryge, Ana Belén Muñoz-Manchado, Jennie Close, Renata Batista-Brito, Sten Linnarsson, Jens Hjerling-Leffler

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

Although cardinal cortical interneuron identity is established upon cell-cycle exit, it remains unclear whether specific interneuron subtypes are pre-established, and if so, how their identity is maintained prior to circuit integration. We conditionally removed Sox6 (Sox6-cKO) in migrating somatostatin (Sst⁺) interneurons and assessed the effects on their mature identity. In adolescent mice, five of eight molecular Sst⁺ subtypes were nearly absent in the Sox6-cKO cortex without a reduction in cell number. Sox6-cKO cells displayed electrophysiological maturity and expressed genes enriched within the broad class of Sst⁺ interneurons. Furthermore, we could infer subtype identity prior to cortical integration (embryonic day 18.5), suggesting that the loss in subtype was due to disrupted subtype maintenance. Conversely, Sox6 removal at postnatal day 7 did not disrupt marker expression in the mature cortex. Therefore, Sox6 is necessary during migration for maintenance of Sst⁺ subtype identity, indicating that subtype maintenance requires active transcriptional programs.

Original language	English (US)
Pages (from-to)	3590-3603.e5
Journal	Neuron
Volume	111
Issue number	22
DOIs	https://doi.org/10.1016/j.neuron.2023.07.018
State	Published - Nov 15 2023
Externally published	Yes

Keywords

Martinotti cell
Sox6
cell-type maintenance
cortex
development
single-cell RNA sequencing
somatostatin interneuron
subtype identity
transcription factor

ASJC Scopus subject areas

General Neuroscience

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10.1016/j.neuron.2023.07.018

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title = "Transcriptional maintenance of cortical somatostatin interneuron subtype identity during migration",

abstract = "Although cardinal cortical interneuron identity is established upon cell-cycle exit, it remains unclear whether specific interneuron subtypes are pre-established, and if so, how their identity is maintained prior to circuit integration. We conditionally removed Sox6 (Sox6-cKO) in migrating somatostatin (Sst+) interneurons and assessed the effects on their mature identity. In adolescent mice, five of eight molecular Sst+ subtypes were nearly absent in the Sox6-cKO cortex without a reduction in cell number. Sox6-cKO cells displayed electrophysiological maturity and expressed genes enriched within the broad class of Sst+ interneurons. Furthermore, we could infer subtype identity prior to cortical integration (embryonic day 18.5), suggesting that the loss in subtype was due to disrupted subtype maintenance. Conversely, Sox6 removal at postnatal day 7 did not disrupt marker expression in the mature cortex. Therefore, Sox6 is necessary during migration for maintenance of Sst+ subtype identity, indicating that subtype maintenance requires active transcriptional programs.",

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AU - Munguba, Hermany

AU - Nikouei, Kasra

AU - Hochgerner, Hannah

AU - Oberst, Polina

AU - Kouznetsova, Alexandra

AU - Ryge, Jesper

AU - Muñoz-Manchado, Ana Belén

AU - Close, Jennie

AU - Batista-Brito, Renata

AU - Linnarsson, Sten

AU - Hjerling-Leffler, Jens

PY - 2023/11/15

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N2 - Although cardinal cortical interneuron identity is established upon cell-cycle exit, it remains unclear whether specific interneuron subtypes are pre-established, and if so, how their identity is maintained prior to circuit integration. We conditionally removed Sox6 (Sox6-cKO) in migrating somatostatin (Sst+) interneurons and assessed the effects on their mature identity. In adolescent mice, five of eight molecular Sst+ subtypes were nearly absent in the Sox6-cKO cortex without a reduction in cell number. Sox6-cKO cells displayed electrophysiological maturity and expressed genes enriched within the broad class of Sst+ interneurons. Furthermore, we could infer subtype identity prior to cortical integration (embryonic day 18.5), suggesting that the loss in subtype was due to disrupted subtype maintenance. Conversely, Sox6 removal at postnatal day 7 did not disrupt marker expression in the mature cortex. Therefore, Sox6 is necessary during migration for maintenance of Sst+ subtype identity, indicating that subtype maintenance requires active transcriptional programs.

AB - Although cardinal cortical interneuron identity is established upon cell-cycle exit, it remains unclear whether specific interneuron subtypes are pre-established, and if so, how their identity is maintained prior to circuit integration. We conditionally removed Sox6 (Sox6-cKO) in migrating somatostatin (Sst+) interneurons and assessed the effects on their mature identity. In adolescent mice, five of eight molecular Sst+ subtypes were nearly absent in the Sox6-cKO cortex without a reduction in cell number. Sox6-cKO cells displayed electrophysiological maturity and expressed genes enriched within the broad class of Sst+ interneurons. Furthermore, we could infer subtype identity prior to cortical integration (embryonic day 18.5), suggesting that the loss in subtype was due to disrupted subtype maintenance. Conversely, Sox6 removal at postnatal day 7 did not disrupt marker expression in the mature cortex. Therefore, Sox6 is necessary during migration for maintenance of Sst+ subtype identity, indicating that subtype maintenance requires active transcriptional programs.

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KW - subtype identity

KW - transcription factor

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Transcriptional maintenance of cortical somatostatin interneuron subtype identity during migration

Abstract

Keywords

ASJC Scopus subject areas

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