TLX3在小脑发育过程中调节小脑颗粒神经元前体细胞增殖，其功能障碍可导致自闭症。

TLX3 regulates CGN progenitor proliferation during cerebellum development and its dysfunction can lead to autism.

作者信息

Parvathy Surendran, Basu Budhaditya, Surya Suresh, Jose Rahul, Meera Vadakkath, Riya Paul Ann, Jyothi Nair Pradeep, Sanalkumar Rajendran, Praz Viviane, Riggi Nicolò, Nair Biju Surendran, Gulia Kamalesh K, Kumar Mukesh, Binukumar Balachandran Krishnamma, James Jackson

机构信息

Neuro Stem Cell Biology Laboratory, Neurobiology Division, Rajiv Gandhi Centre for Biotechnology (BRIC-RGCB), Thiruvananthapuram, Kerala 695 014, India.

Research Centre, The University of Kerala, Thiruvananthapuram, Kerala 695 014, India.

出版信息

iScience. 2024 Nov 5;27(12):111260. doi: 10.1016/j.isci.2024.111260. eCollection 2024 Dec 20.

DOI:10.1016/j.isci.2024.111260

PMID:39628587

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11612787/

Abstract

, a master regulator of the fate specification of excitatory neurons, is primarily known to function in post-mitotic cells. Although we have previously identified TLX3 expression in the proliferating granule neuron progenitors (GNPs) of cerebellum, its primary role is unknown. Here, we demonstrate that the dysfunction of from the GNPs significantly reduced its proliferation through regulating anti-proliferative genes. Consequently, the altered generation of GNPs resulted in cerebellar hypoplasia, patterning defects, granule neuron-Purkinje ratio imbalance, and aberrant synaptic connections in the cerebellum. This altered cerebellar homeostasis manifested into a typical autism-like behavior in mice with motor, and social function disabilities. We also show the presence of variants with uncharacterized mutations in human cases of autism spectrum disorder (ASD). Altogether, our study establishes as a critical gene involved in developing GNPs and that its deletion from the early developmental stage culminates in autism.

摘要

作为兴奋性神经元命运决定的主要调节因子，主要在有丝分裂后细胞中发挥作用。尽管我们之前已在小脑增殖性颗粒神经元前体细胞（GNP）中鉴定出TLX3的表达，但其主要作用尚不清楚。在此，我们证明GNP中TLX3功能障碍通过调节抗增殖基因显著降低其增殖。因此，GNP生成的改变导致小脑发育不全、模式缺陷、颗粒神经元与浦肯野细胞比例失衡以及小脑中异常的突触连接。这种改变的小脑内环境稳定在具有运动和社交功能障碍的小鼠中表现为典型的自闭症样行为。我们还在自闭症谱系障碍（ASD）人类病例中发现了具有未表征突变的TLX3变体。总之，我们的研究确定TLX3是参与GNP发育的关键基因，并且从早期发育阶段缺失该基因最终会导致自闭症。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cfad/11612787/02bfcb3886af/fx1.jpg

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TLX3在小脑发育过程中调节小脑颗粒神经元前体细胞增殖，其功能障碍可导致自闭症。

TLX3 regulates CGN progenitor proliferation during cerebellum development and its dysfunction can lead to autism.

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