Author
Listed:
- Esther Klingler
(University of Geneva)
- Ugo Tomasello
(University of Geneva)
- Julien Prados
(Geneva University Hospital)
- Justus M. Kebschull
(Cold Spring Harbor Laboratory, Cold Spring Harbor
Johns Hopkins University)
- Alessandro Contestabile
(University of Geneva)
- Gregorio L. Galiñanes
(University of Geneva)
- Sabine Fièvre
(University of Geneva)
- Antonio Santinha
(ETH Zurich)
- Randall Platt
(ETH Zurich)
- Daniel Huber
(University of Geneva)
- Alexandre Dayer
(University of Geneva
Geneva University Hospital)
- Camilla Bellone
(University of Geneva)
- Denis Jabaudon
(University of Geneva
Geneva University Hospital)
Abstract
Interconnectivity between neocortical areas is critical for sensory integration and sensorimotor transformations1–6. These functions are mediated by heterogeneous inter-areal cortical projection neurons (ICPN), which send axon branches across cortical areas as well as to subcortical targets7–9. Although ICPN are anatomically diverse10–14, they are molecularly homogeneous15, and how the diversity of their anatomical and functional features emerge during development remains largely unknown. Here we address this question by linking the connectome and transcriptome in developing single ICPN of the mouse neocortex using a combination of multiplexed analysis of projections by sequencing16,17 (MAPseq, to identify single-neuron axonal projections) and single-cell RNA sequencing (to identify corresponding gene expression). Focusing on neurons of the primary somatosensory cortex (S1), we reveal a protracted unfolding of the molecular and functional differentiation of motor cortex-projecting ( $$\vec{{\rm{M}}}$$ M ⃗ ) ICPN compared with secondary somatosensory cortex-projecting ( $$\vec{{\rm{S}}2}$$ S 2 ⃗ ) ICPN. We identify SOX11 as a temporally differentially expressed transcription factor in $$\vec{{\rm{M}}}$$ M ⃗ versus $$\vec{{\rm{S}}2}$$ S 2 ⃗ ICPN. Postnatal manipulation of SOX11 expression in S1 impaired sensorimotor connectivity and disrupted selective exploratory behaviours in mice. Together, our results reveal that within a single cortical area, different subtypes of ICPN have distinct postnatal paces of molecular differentiation, which are subsequently reflected in distinct circuit connectivities and functions. Dynamic differences in the expression levels of a largely generic set of genes, rather than fundamental differences in the identity of developmental genetic programs, may thus account for the emergence of intra-type diversity in cortical neurons.
Suggested Citation
Esther Klingler & Ugo Tomasello & Julien Prados & Justus M. Kebschull & Alessandro Contestabile & Gregorio L. Galiñanes & Sabine Fièvre & Antonio Santinha & Randall Platt & Daniel Huber & Alexandre Da, 2021.
"Temporal controls over inter-areal cortical projection neuron fate diversity,"
Nature, Nature, vol. 599(7885), pages 453-457, November.
Handle:
RePEc:nat:nature:v:599:y:2021:i:7885:d:10.1038_s41586-021-04048-3
DOI: 10.1038/s41586-021-04048-3
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Citations
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Cited by:
- Li Yuan & Xiaoyin Chen & Huiqing Zhan & Gilbert L. Henry & Anthony M. Zador, 2024.
"Massive multiplexing of spatially resolved single neuron projections with axonal BARseq,"
Nature Communications, Nature, vol. 15(1), pages 1-17, December.
- Annalisa Paolino & Elizabeth H. Haines & Evan J. Bailey & Dylan A. Black & Ching Moey & Fernando García-Moreno & Linda J. Richards & Rodrigo Suárez & Laura R. Fenlon, 2023.
"Non-uniform temporal scaling of developmental processes in the mammalian cortex,"
Nature Communications, Nature, vol. 14(1), pages 1-17, December.
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