CEP170 as a novel molecular link between centrosomal function and cerebral cortical development
Yu-Ching Liao, Meng-Han Tsai, Nian-Hsin Chao, Yu-Syuan Chang, Tzu-Wei Lin, I-Hsuan Lin, Pei-Shan Hou, Won-Jing Wang, Jin-Wu Tsai

TL;DR
This study shows that CEP170 is essential for brain development by linking centrosome function to neuronal migration and cortical structure.
Contribution
The study identifies CEP170 as a novel molecular link between centrosomal function and cerebral cortical development.
Findings
CEP170 knockdown causes neuronal migration deficits and altered cortical architecture.
CEP170 regulates progenitor cell proliferation and microtubule dynamics.
Truncations in CEP170 disrupt centrosomal localization and impair cortical development.
Abstract
The centrosome is a critical regulator of cortical development, orchestrating microtubule dynamics, cell cycle progression, and neuronal migration. Disruptions in centrosome-associated proteins have been associated with a range of neurodevelopmental disorders. CEP170, a microtubule-binding protein localized to the subdistal appendages (SDA) of centrioles, has been implicated in centrosome function, yet its role in corticogenesis remains poorly defined. We analyzed CEP170 expression in mouse cortex using western blotting, qPCR, scRNA-seq, and spatial transcriptomics, and examined its transcript expression in the developing human cortex using scRNA-seq. Loss-of-function phenotypes were assessed via in utero electroporation of Cep170-targeting shRNAs in embryonic mouse cortex. Cell proliferation and microtubule dynamics were analyzed using CRISPR/Cas9-generated CEP170-knockout cells, flow…
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Taxonomy
TopicsMicrotubule and mitosis dynamics · Neurogenesis and neuroplasticity mechanisms · Glioma Diagnosis and Treatment
