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由Notch受体糖基化缺陷引起的先天性疾病。

Congenital diseases caused by defective -glycosylation of Notch receptors.

作者信息

Tashima Yuko, Okajima Tetsuya

机构信息

Department of Molecular & Cellular Biology, Nagoya University Graduate School of Medicine, Nagoya, Japan.

出版信息

Nagoya J Med Sci. 2018 Aug;80(3):299-307. doi: 10.18999/nagjms.80.3.299.

DOI:10.18999/nagjms.80.3.299
PMID:30214079
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6125653/
Abstract

The Notch signaling pathway is highly conserved and essential for animal development. It is required for cell differentiation, survival, and proliferation. Regulation of Notch signaling is a crucial process for human health. Ligands initiate a signal cascade by binding to Notch receptors expressed on a neighboring cell. Notch receptors interact with ligands through their epidermal growth factor-like repeats (EGF repeats). Most EGF repeats are modified by -glycosylation with residues such as -linked -acetylglucosamine (-GlcNAc), -fucose, and -glucose. These -glycan modifications are important for Notch function. Defects in -glycosylation affect Notch-ligand interaction, trafficking of Notch receptors, and Notch stability on the cell surface. Although the roles of each modification are not fully understood, -fucose is essential for binding of Notch receptors to their ligands. We reported an EGF domain-specific -GlcNAc transferase (EOGT) localized in the endoplasmic reticulum. Mutations in genes encoding EOGT or NOTCH1 cause Adams-Oliver syndrome. Dysregulation of Notch signaling because of defects or mutations in Notch receptors or Notch signal-regulating proteins, such as glycosyltransferases, induce a variety of congenital disorders. In this review, we discuss -glycosylation of Notch receptors and congenital human diseases caused by defects in -glycans on Notch receptors.

摘要

Notch信号通路高度保守,对动物发育至关重要。它是细胞分化、存活和增殖所必需的。Notch信号的调节是人类健康的关键过程。配体通过与相邻细胞上表达的Notch受体结合来启动信号级联反应。Notch受体通过其表皮生长因子样重复序列(EGF重复序列)与配体相互作用。大多数EGF重复序列通过与诸如β-连接的N-乙酰葡糖胺(β-GlcNAc)、α-岩藻糖和α-葡萄糖等残基进行O-糖基化修饰。这些O-聚糖修饰对Notch功能很重要。O-糖基化缺陷会影响Notch-配体相互作用、Notch受体的运输以及Notch在细胞表面的稳定性。尽管每种修饰的作用尚未完全了解,但α-岩藻糖对于Notch受体与其配体的结合至关重要。我们报道了一种定位于内质网的EGF结构域特异性N-乙酰葡糖胺转移酶(EOGT)。编码EOGT或NOTCH1的基因突变会导致亚当斯-奥利弗综合征。由于Notch受体或Notch信号调节蛋白(如糖基转移酶)的缺陷或突变导致的Notch信号失调会引发多种先天性疾病。在这篇综述中,我们讨论了Notch受体的O-糖基化以及由Notch受体上O-聚糖缺陷引起的人类先天性疾病。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3eb4/6125653/aa1be432028d/2186-3326-80-0299-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3eb4/6125653/2684fc34dbdc/2186-3326-80-0299-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3eb4/6125653/aa1be432028d/2186-3326-80-0299-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3eb4/6125653/2684fc34dbdc/2186-3326-80-0299-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3eb4/6125653/aa1be432028d/2186-3326-80-0299-g002.jpg

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本文引用的文献

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Structural Divergence in -GlcNAc Glycans Displayed on Epidermal Growth Factor-like Repeats of Mammalian Notch1.哺乳动物 Notch1 表皮生长因子样重复序列上展示的 -GlcNAc 聚糖的结构差异。
Molecules. 2018 Jul 17;23(7):1745. doi: 10.3390/molecules23071745.
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Epsin-Dependent Ligand Endocytosis Activates Notch by Force.埃普辛依赖的配体内吞作用通过力激活Notch信号通路。
Cell. 2017 Nov 30;171(6):1383-1396.e12. doi: 10.1016/j.cell.2017.10.048.
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Comparative genomics reveals that loss of lunatic fringe (LFNG) promotes melanoma metastasis.
热休克因子1增强EOGT介导的Notch1糖基化以促进白细胞介素-1β诱导的软骨细胞炎性损伤
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Tumour follower cells: A novel driver of leader cells in collective invasion (Review).肿瘤追随细胞:集体浸润中领导者细胞的新驱动因素(综述)。
Int J Oncol. 2023 Oct;63(4). doi: 10.3892/ijo.2023.5563. Epub 2023 Aug 24.
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Bioinformatics and Functional Analyses Implicate Potential Roles for EOGT and L-fringe in Pancreatic Cancers.生物信息学和功能分析提示 EOGT 和 L- fringe 在胰腺癌中的潜在作用。
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Xylosyl Extension of -Glucose Glycans on the Extracellular Domain of NOTCH1 and NOTCH2 Regulates Notch Cell Surface Trafficking.葡萄糖聚糖的木糖基延伸对 NOTCH1 和 NOTCH2 细胞外结构域调控 Notch 细胞表面运输。
Cells. 2020 May 14;9(5):1220. doi: 10.3390/cells9051220.
比较基因组学揭示,疯狂边缘蛋白(LFNG)的缺失会促进黑色素瘤转移。
Mol Oncol. 2018 Feb;12(2):239-255. doi: 10.1002/1878-0261.12161. Epub 2018 Jan 7.
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Notch and its oncogenic activity in human malignancies.Notch及其在人类恶性肿瘤中的致癌活性。
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The developmental biology of genetic Notch disorders.遗传性Notch疾病的发育生物学
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O-GlcNAc on NOTCH1 EGF repeats regulates ligand-induced Notch signaling and vascular development in mammals.NOTCH1表皮生长因子重复序列上的O-连接N-乙酰葡糖胺调控哺乳动物中配体诱导的Notch信号传导和血管发育。
Elife. 2017 Apr 11;6:e24419. doi: 10.7554/eLife.24419.
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A POGLUT1 mutation causes a muscular dystrophy with reduced Notch signaling and satellite cell loss.POGLUT1突变导致一种伴有Notch信号传导减少和卫星细胞丢失的肌肉萎缩症。
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