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本文引用的文献

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Neurogenin3 phosphorylation controls reprogramming efficiency of pancreatic ductal organoids into endocrine cells.神经母细胞生成素 3 磷酸化控制胰腺导管类器官重编程为内分泌细胞的效率。
Sci Rep. 2018 Oct 18;8(1):15374. doi: 10.1038/s41598-018-33838-5.
2
The Roles of Thyroid and Thyroid Hormone in Pancreas: Physiology and Pathology.甲状腺及甲状腺激素在胰腺中的作用:生理学与病理学
Int J Endocrinol. 2018 Jun 14;2018:2861034. doi: 10.1155/2018/2861034. eCollection 2018.
3
Discovery of a drug candidate for GLIS3-associated diabetes.发现用于 GLIS3 相关糖尿病的药物候选物。
Nat Commun. 2018 Jul 11;9(1):2681. doi: 10.1038/s41467-018-04918-x.
4
GLIS1-3 transcription factors: critical roles in the regulation of multiple physiological processes and diseases.GLIS1-3 转录因子:在调节多种生理过程和疾病中的关键作用。
Cell Mol Life Sci. 2018 Oct;75(19):3473-3494. doi: 10.1007/s00018-018-2841-9. Epub 2018 May 19.
5
GLIS3 is indispensable for TSH/TSHR-dependent thyroid hormone biosynthesis and follicular cell proliferation.GLIS3 对于 TSH/TSHR 依赖性甲状腺激素生物合成和滤泡细胞增殖是必不可少的。
J Clin Invest. 2017 Dec 1;127(12):4326-4337. doi: 10.1172/JCI94417. Epub 2017 Oct 30.
6
GLIS1-3: emerging roles in reprogramming, stem and progenitor cell differentiation and maintenance.GLIS1-3:在重编程、干细胞和祖细胞分化及维持中的新作用
Stem Cell Investig. 2017 Sep 27;4:80. doi: 10.21037/sci.2017.09.01. eCollection 2017.
7
Pathview Web: user friendly pathway visualization and data integration.Pathview Web:用户友好的通路可视化和数据集成。
Nucleic Acids Res. 2017 Jul 3;45(W1):W501-W508. doi: 10.1093/nar/gkx372.
8
Enhancers and chromatin structures: regulatory hubs in gene expression and diseases.增强子与染色质结构:基因表达和疾病中的调控枢纽
Biosci Rep. 2017 Apr 28;37(2). doi: 10.1042/BSR20160183. Print 2017 Apr 30.
9
LIM domain-binding 1 maintains the terminally differentiated state of pancreatic β cells.LIM结构域结合蛋白1维持胰腺β细胞的终末分化状态。
J Clin Invest. 2017 Jan 3;127(1):215-229. doi: 10.1172/JCI88016. Epub 2016 Dec 12.
10
Emerging roles of GLIS3 in neonatal diabetes, type 1 and type 2 diabetes.GLIS3在新生儿糖尿病、1型和2型糖尿病中的新作用。
J Mol Endocrinol. 2017 Feb;58(2):R73-R85. doi: 10.1530/JME-16-0232. Epub 2016 Nov 29.

GLIS3与其他胰岛转录因子一起结合胰腺β细胞调节区域。

GLIS3 binds pancreatic beta cell regulatory regions alongside other islet transcription factors.

作者信息

Scoville David W, Lichti-Kaiser Kristin, Grimm Sara A, Jetten Anton M

机构信息

Cell Biology Group, Immunity, Inflammation and Disease Laboratory, National Institute of Environmental Health Sciences, National Institutes of Health, Research Triangle Park, North Carolina, USA.

Integrative Bioinformatics Support Group, National Institute of Environmental Health Sciences, National Institutes of Health, Research Triangle Park, North Carolina, USA.

出版信息

J Endocrinol. 2019 Oct;243(1):1-14. doi: 10.1530/JOE-19-0182.

DOI:10.1530/JOE-19-0182
PMID:31340201
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6938561/
Abstract

The Krüppel-like zinc finger transcription factor Gli-similar 3 (GLIS3) plays a critical role in the regulation of pancreatic beta cells, with global Glis3-knockout mice suffering from severe hyperglycemia and dying by post-natal day 11. In addition, GLIS3 has been shown to directly regulate the early endocrine marker Ngn3, as well as Ins2 gene expression in mature beta cells. We hypothesize that GLIS3 regulates several other genes critical to beta cell function, in addition to Ins2, by directly binding to regulatory regions. We therefore generated a pancreas-specific Glis3 deletion mouse model (Glis3Δ panc ) using a Pdx1-driven Cre mouse line. Roughly 20% of these mice develop hyperglycemia by 8 weeks and lose most of their insulin expression. However, this did not appear to be due to loss of the beta cells themselves, as no change in cell death was observed. Indeed, presumptive beta cells appeared to persist as PDX1+/INS-/MAFA-/GLUT2- cells. Islet RNA-seq analysis combined with GLIS3 ChIP-seq analysis revealed apparent direct regulation of a variety of diabetes-related genes, including Slc2a2 and Mafa. GLIS3 binding near these genes coincided with binding for other islet-enriched transcription factors, indicating these are distinct regulatory hubs. Our data indicate that GLIS3 regulates not only insulin expression, but also several additional genes critical for beta cell function.

摘要

类Krüppel锌指转录因子Gli相似蛋白3(GLIS3)在胰腺β细胞的调控中起关键作用,全身性Glis3基因敲除小鼠会出现严重高血糖,并在出生后第11天死亡。此外,GLIS3已被证明可直接调控早期内分泌标志物Ngn3以及成熟β细胞中Ins2基因的表达。我们推测,除Ins2外,GLIS3还通过直接结合调控区域来调控其他几个对β细胞功能至关重要的基因。因此,我们使用Pdx1驱动的Cre小鼠品系构建了胰腺特异性Glis3缺失小鼠模型(Glis3Δ panc)。大约20%的这些小鼠在8周时出现高血糖,并失去大部分胰岛素表达。然而,这似乎并不是由于β细胞本身的丢失,因为未观察到细胞死亡的变化。实际上,假定的β细胞似乎以PDX1+/INS-/MAFA-/GLUT2-细胞的形式持续存在。胰岛RNA测序分析与GLIS3染色质免疫沉淀测序分析相结合,揭示了GLIS3对包括Slc2a2和Mafa在内的多种糖尿病相关基因的明显直接调控。这些基因附近的GLIS3结合与其他胰岛富集转录因子的结合一致,表明这些是不同的调控枢纽。我们的数据表明,GLIS3不仅调控胰岛素表达,还调控其他几个对β细胞功能至关重要的基因。