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  • Pyramidal neurons form active, transient, multilayered circuits perturbed by autism-associated mutations at the inception of neocortex.

Pyramidal neurons form active, transient, multilayered circuits perturbed by autism-associated mutations at the inception of neocortex.

Cell (2023-04-19)
Martin Munz, Arjun Bharioke, Georg Kosche, Verónica Moreno-Juan, Alexandra Brignall, Tiago M Rodrigues, Alexandra Graff-Meyer, Talia Ulmer, Stephanie Haeuselmann, Dinko Pavlinic, Nicole Ledergerber, Brigitte Gross-Scherf, Balázs Rózsa, Jacek Krol, Simone Picelli, Cameron S Cowan, Botond Roska
RESUMEN

Cortical circuits are composed predominantly of pyramidal-to-pyramidal neuron connections, yet their assembly during embryonic development is not well understood. We show that mouse embryonic Rbp4-Cre cortical neurons, transcriptomically closest to layer 5 pyramidal neurons, display two phases of circuit assembly in vivo. At E14.5, they form a multi-layered circuit motif, composed of only embryonic near-projecting-type neurons. By E17.5, this transitions to a second motif involving all three embryonic types, analogous to the three adult layer 5 types. In vivo patch clamp recordings and two-photon calcium imaging of embryonic Rbp4-Cre neurons reveal active somas and neurites, tetrodotoxin-sensitive voltage-gated conductances, and functional glutamatergic synapses, from E14.5 onwards. Embryonic Rbp4-Cre neurons strongly express autism-associated genes and perturbing these genes interferes with the switch between the two motifs. Hence, pyramidal neurons form active, transient, multi-layered pyramidal-to-pyramidal circuits at the inception of neocortex, and studying these circuits could yield insights into the etiology of autism.

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Anti-CTIP2/BCL11B Antibody, clone 25B6, clone 25B6, from rat
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Anticuerpo anti-proteína fluorescente verde, Chemicon®, from rabbit
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Anticuerpo anti-PAX6, from rabbit, purified by affinity chromatography