{"title":"EMG1 cooperates with GRHL3 in β-catenin-mediated surface ectoderm differentiation to regulate neural tube closure.","authors":"Chiharu Kimura-Yoshida, Kyoko Mochida, Chihiro Matsuno, Keiko Kano, Emi Mishiro-Sato, Isao Matsuo","doi":"10.1242/dev.204700","DOIUrl":null,"url":null,"abstract":"<p><p>Grainyhead-like transcription factor 3 (GRHL3) directs surface ectoderm differentiation under the control of the canonical Wnt/β-catenin pathway. However, the molecular mechanisms that control nuclear GRHL3 expression through β-catenin are not fully understood. Here, we show that the essential for mitotic growth 1 (EMG1) protein constitutes a protein complex with GRHL3, and that EMG1 is required for correct nuclear localization of GRHL3, and for activation of the canonical Wnt signaling pathway. Conditional knockout mutation of Emg1 in the GRHL3-positive surface ectoderm causes neural tube defects at the level of the spinal cord, i.e. spina bifida. Additionally, the severity of compound mutant phenotypes of Emg1 and Grhl3 indicates that they interact genetically in neurulation and palate development. These lines of evidence demonstrate that EMG1 cooperates with GRHL3 in β-catenin-mediated surface ectoderm differentiation. Since the EMG1 mutation causes Bowen-Conradi syndrome and the GRHL3 mutation causes Van der Woude syndrome 2, both of which are associated with neural tube dysplasia and cleft palate, our study will help to improve our understanding of the pathogenic mechanisms of these two human genetic diseases.</p>","PeriodicalId":11375,"journal":{"name":"Development","volume":"152 15","pages":""},"PeriodicalIF":3.6000,"publicationDate":"2025-08-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Development","FirstCategoryId":"99","ListUrlMain":"https://doi.org/10.1242/dev.204700","RegionNum":2,"RegionCategory":"生物学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"2025/8/5 0:00:00","PubModel":"Epub","JCR":"Q1","JCRName":"DEVELOPMENTAL BIOLOGY","Score":null,"Total":0}
引用次数: 0
Abstract
Grainyhead-like transcription factor 3 (GRHL3) directs surface ectoderm differentiation under the control of the canonical Wnt/β-catenin pathway. However, the molecular mechanisms that control nuclear GRHL3 expression through β-catenin are not fully understood. Here, we show that the essential for mitotic growth 1 (EMG1) protein constitutes a protein complex with GRHL3, and that EMG1 is required for correct nuclear localization of GRHL3, and for activation of the canonical Wnt signaling pathway. Conditional knockout mutation of Emg1 in the GRHL3-positive surface ectoderm causes neural tube defects at the level of the spinal cord, i.e. spina bifida. Additionally, the severity of compound mutant phenotypes of Emg1 and Grhl3 indicates that they interact genetically in neurulation and palate development. These lines of evidence demonstrate that EMG1 cooperates with GRHL3 in β-catenin-mediated surface ectoderm differentiation. Since the EMG1 mutation causes Bowen-Conradi syndrome and the GRHL3 mutation causes Van der Woude syndrome 2, both of which are associated with neural tube dysplasia and cleft palate, our study will help to improve our understanding of the pathogenic mechanisms of these two human genetic diseases.
颗粒头样转录因子3 (GRHL3)在典型的Wnt/β-catenin通路的控制下指导表面外胚层分化。然而,通过β-catenin调控核GRHL3表达的分子机制尚不完全清楚。在这里,我们发现有丝分裂生长1必需蛋白(EMG1)与GRHL3构成蛋白复合物,并且EMG1是GRHL3正确的核定位和典型Wnt信号通路激活所必需的。grhl3阳性表面外胚层中Emg1的条件敲除突变导致脊髓水平的神经管缺陷,即脊柱裂。此外,Emg1和Grhl3复合突变表型的严重程度表明它们在神经发育和腭发育中具有遗传相互作用。这些证据表明,EMG1在β-catenin介导的表面外胚层分化中与GRHL3协同作用。由于EMG1突变导致Bowen-Conradi综合征,GRHL3突变导致Van der Woude综合征2,这两种疾病都与神经管发育不良和腭裂有关,我们的研究将有助于提高我们对这两种人类遗传疾病致病机制的认识。
期刊介绍:
Development’s scope covers all aspects of plant and animal development, including stem cell biology and regeneration. The single most important criterion for acceptance in Development is scientific excellence. Research papers (articles and reports) should therefore pose and test a significant hypothesis or address a significant question, and should provide novel perspectives that advance our understanding of development. We also encourage submission of papers that use computational methods or mathematical models to obtain significant new insights into developmental biology topics. Manuscripts that are descriptive in nature will be considered only when they lay important groundwork for a field and/or provide novel resources for understanding developmental processes of broad interest to the community.
Development includes a Techniques and Resources section for the publication of new methods, datasets, and other types of resources. Papers describing new techniques should include a proof-of-principle demonstration that the technique is valuable to the developmental biology community; they need not include in-depth follow-up analysis. The technique must be described in sufficient detail to be easily replicated by other investigators. Development will also consider protocol-type papers of exceptional interest to the community. We welcome submission of Resource papers, for example those reporting new databases, systems-level datasets, or genetic resources of major value to the developmental biology community. For all papers, the data or resource described must be made available to the community with minimal restrictions upon publication.
To aid navigability, Development has dedicated sections of the journal to stem cells & regeneration and to human development. The criteria for acceptance into these sections is identical to those outlined above. Authors and editors are encouraged to nominate appropriate manuscripts for inclusion in one of these sections.
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