皮质-大脑皮质下投射神经元的特异性取决于CTIP1/BCL11a对TBR1的直接抑制作用。

The Specification of Cortical Subcerebral Projection Neurons Depends on the Direct Repression of TBR1 by CTIP1/BCL11a.

作者信息

Cánovas José, Berndt F Andrés, Sepúlveda Hugo, Aguilar Rodrigo, Veloso Felipe A, Montecino Martín, Oliva Carlos, Maass Juan C, Sierralta Jimena, Kukuljan Manuel

机构信息

Biomedical Neuroscience Institute and Program of Physiology and Biophysics, Faculty of Medicine, Universidad de Chile, Santiago 8380453, Chile.

Center for Biomedical Research and FONDAP Center for Genome Regulation, Universidad Andrés Bello, Santiago 8370146, Chile, and.

出版信息

J Neurosci. 2015 May 13;35(19):7552-64. doi: 10.1523/JNEUROSCI.0169-15.2015.

DOI:10.1523/JNEUROSCI.0169-15.2015

PMID:25972180

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6705430/

Abstract

The acquisition of distinct neuronal fates is fundamental for the function of the cerebral cortex. We find that the development of subcerebral projections from layer 5 neurons in the mouse neocortex depends on the high levels of expression of the transcription factor CTIP1; CTIP1 is coexpressed with CTIP2 in neurons that project to subcerebral targets and with SATB2 in those that project to the contralateral cortex. CTIP1 directly represses Tbr1 in layer 5, which appears as a critical step for the acquisition of the subcerebral fate. In contrast, lower levels of CTIP1 in layer 6 are required for TBR1 expression, which directs the corticothalamic fate. CTIP1 does not appear to play a critical role in the acquisition of the callosal projection fate in layer 5. These findings unravel a key step in the acquisition of cell fate for closely related corticofugal neurons and indicate that differential dosages of transcriptions factors are critical to specify different neuronal identities.

摘要

获得不同的神经元命运对于大脑皮层的功能至关重要。我们发现，小鼠新皮层第5层神经元的大脑下投射的发育依赖于转录因子CTIP1的高水平表达；CTIP1在投射到大脑下靶点的神经元中与CTIP2共表达，而在投射到对侧皮层的神经元中与SATB2共表达。CTIP1直接抑制第5层中的Tbr1，这似乎是获得大脑下命运的关键步骤。相反，第6层中较低水平的CTIP1是TBR1表达所必需的，TBR1指导皮质丘脑命运。CTIP1似乎在第5层胼胝体投射命运的获得中不发挥关键作用。这些发现揭示了密切相关的皮质传出神经元获得细胞命运的关键步骤，并表明转录因子的不同剂量对于指定不同的神经元身份至关重要。

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