TEAD1 is crucial for developmental myelination, Remak bundles, and functional regeneration of peripheral nerves.

IF 4.9 4区 计算机科学 Q1 AUTOMATION & CONTROL SYSTEMS International Journal of Systems Science Pub Date : 2024-01-17 DOI:10.1101/2023.02.27.530298
Matthew Grove, Hyukmin Kim, Shuhuan Pang, José Paz Amaya, Guoqing Hu, Jiliang Zhou, Michel Lemay, Young-Jin Son
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Abstract

Previously we showed that the hippo pathway transcriptional effectors, YAP and TAZ, are essential for Schwann cells (SCs) to develop, maintain and regenerate myelin (Grove et al., 2017; Grove, Lee, Zhao, & Son, 2020). Although TEAD1 has been implicated as a partner transcription factor, the mechanisms by which it mediates YAP/TAZ regulation of SC myelination are unclear. Here, using conditional and inducible knockout mice, we show that TEAD1 is crucial for SCs to develop and regenerate myelin. It promotes myelination by both positively and negatively regulating SC proliferation, enabling Krox20/Egr2 to upregulate myelin proteins, and upregulating the cholesterol biosynthetic enzymes FDPS and IDI1. We also show stage-dependent redundancy of TEAD1 and that non-myelinating SCs have a unique requirement for TEAD1 to enwrap nociceptive axons in Remak bundles. Our findings establish TEAD1 as a major partner of YAP/TAZ in developmental myelination and functional nerve regeneration and as a novel transcription factor regulating Remak bundle integrity.

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TEAD1 对周围神经的发育髓鞘化、雷马克束和功能再生至关重要。
在此之前,我们发现河马通路转录效应因子YAP和TAZ是许旺细胞(SC)发育、维持和再生髓鞘所必需的(Grove等人,2017;Grove, Lee, Zhao, & Son, 2020)。尽管 TEAD1 被认为是一个伙伴转录因子,但它介导 YAP/TAZ 对 SC 髓鞘化的调控机制尚不清楚。在此,我们利用条件性和诱导性基因敲除小鼠,证明 TEAD1 对 SC 的髓鞘发育和再生至关重要。它通过正向和负向调节SC增殖、使Krox20/Egr2上调髓鞘蛋白以及上调胆固醇生物合成酶FDPS和IDI1来促进髓鞘化。我们还显示了 TEAD1 的阶段依赖性冗余,以及非髓鞘 SC 在将痛觉轴突包绕在 Remak 束中时对 TEAD1 的独特需求。我们的研究结果证明 TEAD1 是 YAP/TAZ 在发育髓鞘化和功能性神经再生过程中的主要伙伴,也是调节 Remak 束完整性的新型转录因子。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
International Journal of Systems Science
International Journal of Systems Science 工程技术-计算机:理论方法
CiteScore
8.00
自引率
9.30%
发文量
164
审稿时长
7.7 months
期刊介绍: International Journal of Systems Science (IJSS) is a world leading journal dedicated to publishing high quality, rigorously reviewed, original papers that contribute to the methodology and practice in emerging systems engineering themes of intelligence, autonomy and complexity. Modern systems are becoming more and more complex and sophisticated in their demand for performance, reliability and increasing autonomy. Historically, highly analytic and numeric-based methods have sufficed, frequently simplifying the problem to allow analytical tractability. Many manufactured and natural systems (biological, ecological and socio-economic) cannot be adequately represented or analyzed without requiring multiple interacting and interconnected frameworks and a common information-processing framework. A wide range of new theories, methodologies and techniques are required to ‘enable’ such systems, and thus engineering and integration to deal with these demands. IJSS therefore encourages original submissions in these areas, with special focus on papers that are strongly novel as well as not being overly applied. Proposals for special issues in cutting-edge areas of systems science are encouraged, and should be discussed with the Editor-in-Chief. Papers that cover those topics related to operations management and logistics will not be accepted for publication in IJSS. Instead they should be submitted directly to sister journal International Journal of Systems Science: Operations & Logistics. Queries regarding submissions can be made by contacting the Editor-in-Chief, whose decision is final.
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