Repurposing of the multiciliation gene regulatory network in fate specification of Cajal-Retzius neurons

Cajal-Retzius cells (CRs) are key players in cerebral cortex development, and they display a unique transcriptomic identity. Here, we use scRNA-seq to reconstruct the differentiation trajectory of mouse hem-derived CRs, and we unravel the transient expression of a complete gene module previously kno...

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Veröffentlicht in:Developmental cell 2023-08, Vol.58 (15), p.1365-1382.e6
Hauptverfasser: Moreau, Matthieu X, Saillour, Yoann, Elorriaga, Vicente, Bouloudi, Benoît, Delberghe, Elodie, Deutsch Guerrero, Tanya, Ochandorena-Saa, Amaia, Maeso-Alonso, Laura, Marques, Margarita M, Marin, Maria C, Spassky, Nathalie, Pierani, Alessandra, Causeret, Frédéric
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Sprache:eng
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Zusammenfassung:Cajal-Retzius cells (CRs) are key players in cerebral cortex development, and they display a unique transcriptomic identity. Here, we use scRNA-seq to reconstruct the differentiation trajectory of mouse hem-derived CRs, and we unravel the transient expression of a complete gene module previously known to control multiciliogenesis. However, CRs do not undergo centriole amplification or multiciliation. Upon deletion of Gmnc, the master regulator of multiciliogenesis, CRs are initially produced but fail to reach their normal identity resulting in their massive apoptosis. We further dissect the contribution of multiciliation effector genes and identify Trp73 as a key determinant. Finally, we use in utero electroporation to demonstrate that the intrinsic competence of hem progenitors as well as the heterochronic expression of Gmnc prevent centriole amplification in the CR lineage. Our work exemplifies how the co-option of a complete gene module, repurposed to control a distinct process, may contribute to the emergence of novel cell identities.
ISSN:1534-5807
1878-1551
DOI:10.1016/j.devcel.2023.05.011