TFEB overexpression through GFAP promoter disrupts neuronal lamination by dysregulating neurogenesis during embryonic development.

IF 2.3 4区医学 Q2 DEVELOPMENTAL BIOLOGY Developmental Neuroscience Pub Date : 2024-04-05 DOI:10.1159/000538656

Lei Wang, Jiaxin Cao, Haichao Chen, Yuezhang Ma, Yishu Zhang, Xiaomei Su, Yuhong Jing, Yonggang Wang

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Abstract

INTRODUCTION Transcription factor EB (TFEB), a key regulator of autophagy and lysosomal biogenesis, has diverse roles in various physiological processes. Enhancing lysosomal function by TFEB activation has recently been implicated in restoring neural stem cells (NSCs) function. Overexpression of TFEB can inhibit the cell cycle of newborn cortical NSCs. It has also been found that TFEB regulates the pluripotency transcriptional network in mouse embryonic stem cells independent of autophagy lysosomal biogenesis. This study aims to explore the effects of TFEB activation on neurogenesis in vivo through transgenic mice. METHODS We developed a GFAP-driven TFEB overexpression mouse model (TFEB GoE) by crossing the floxed TFEB overexpression mice and hGFAP-cre mice. We performed immunohistochemical and fluorescence staining on brain tissue from newborn mice to assess neurogenesis changes, employing markers such as GFAP, Nestin, Ki67, DCX, Tbr1 and Neun to trace different stages of neural development and cell proliferation. RESULTS TFEB GoE mice exhibited premature mortality, dying at 10-20 days after birth. Immunohistochemical analysis revealed significant abnormalities, including disrupted hippocampal structure and cortical layering. Compared to control mice, TFEB GoE mice showed a marked increase in radial glial cells (RGCs) in the hippocampus and cortex, with Ki67 staining indicating these cells were predominantly in a quiescent state. This suggests that TFEB overexpression suppresses RGCs proliferation. Additionally, abnormal distributions of migrating neurons and mature neurons were observed, highlighted by DCX, Tbr1 and Neun staining, indicating a disruption in normal neurogenesis. CONCLUSION This study, using transgenic animals in vivo, revealed that GFAP-driven TFEB overexpression leads to abnormal neural layering in the hippocampus and cortex by dysregulating neurogenesis. Our study is the first to discover the detrimental impact of TFEB overexpression on neurogenesis during embryonic development, which has important reference significance in future TFEB overexpression interventions in NSCs for treatment.

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在胚胎发育过程中，通过 GFAP 启动子过量表达 TFEB 会调节神经发生，从而破坏神经元分层。

简介转录因子EB（TFEB）是自噬和溶酶体生物生成的关键调节因子，在各种生理过程中发挥着不同的作用。通过激活 TFEB 来增强溶酶体功能最近被认为与恢复神经干细胞（NSCs）功能有关。过表达 TFEB 可抑制新生皮质 NSCs 的细胞周期。研究还发现，TFEB调节小鼠胚胎干细胞的多能性转录网络，与自噬溶酶体生物发生无关。本研究旨在通过转基因小鼠探讨 TFEB 激活对体内神经发生的影响。方法我们通过杂合 TFEB 过表达小鼠和 hGFAP-cre 小鼠杂交，建立了 GFAP 驱动的 TFEB 过表达小鼠模型（TFEB GoE）。我们对新生小鼠的脑组织进行了免疫组化和荧光染色，以评估神经发生的变化，并利用 GFAP、Nestin、Ki67、DCX、Tbr1 和 Neun 等标记物来追踪神经发育和细胞增殖的不同阶段。免疫组化分析表明小鼠存在明显异常，包括海马结构和皮层分层紊乱。与对照组小鼠相比，TFEB GoE 小鼠海马和皮层中的放射状胶质细胞（RGCs）明显增加，Ki67 染色表明这些细胞主要处于静止状态。这表明 TFEB 的过表达抑制了 RGCs 的增殖。此外，通过 DCX、Tbr1 和 Neun 染色，还观察到迁移神经元和成熟神经元的异常分布，这表明正常的神经发生受到了干扰。我们的研究首次发现了胚胎发育过程中TFEB过表达对神经发生的不利影响，这对今后TFEB过表达干预NSCs治疗具有重要的参考意义。

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来源期刊

Developmental Neuroscience 医学-发育生物学

CiteScore

4.00

自引率

3.40%

发文量

审稿时长

>12 weeks

期刊介绍： ''Developmental Neuroscience'' is a multidisciplinary journal publishing papers covering all stages of invertebrate, vertebrate and human brain development. Emphasis is placed on publishing fundamental as well as translational studies that contribute to our understanding of mechanisms of normal development as well as genetic and environmental causes of abnormal brain development. The journal thus provides valuable information for both physicians and biologists. To meet the rapidly expanding information needs of its readers, the journal combines original papers that report on progress and advances in developmental neuroscience with concise mini-reviews that provide a timely overview of key topics, new insights and ongoing controversies. The editorial standards of ''Developmental Neuroscience'' are high. We are committed to publishing only high quality, complete papers that make significant contributions to the field.