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HES-1参与成人人类β细胞在体外增殖的适应性过程。

HES-1 is involved in adaptation of adult human beta-cells to proliferation in vitro.

作者信息

Bar Yael, Russ Holger A, Knoller Sarah, Ouziel-Yahalom Limor, Efrat Shimon

机构信息

Department of Human Molecular Genetics and Biochemistry, Sackler School of Medicine, Tel Aviv University, Ramat Aviv, Tel Aviv, Israel.

出版信息

Diabetes. 2008 Sep;57(9):2413-20. doi: 10.2337/db07-1323. Epub 2008 Jul 3.

DOI:10.2337/db07-1323
PMID:18599525
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2518492/
Abstract

OBJECTIVE

In vitro expansion of beta-cells from adult human islets could solve the tissue shortage for cell replacement therapy of diabetes. Culture of human islet cells typically results in <16 cell doublings and loss of insulin expression. Using cell lineage tracing, we demonstrated that the expanded cell population included cells derived from beta-cells. Understanding the molecular mechanisms involved in beta-cell fate in vitro is crucial for optimizing expansion and redifferentiation of these cells. In the developing pancreas, important cell-fate decisions are regulated by NOTCH receptors, which signal through the hairy and enhancer of split (HES)-1 transcriptional regulator. Here, we investigated the role of the NOTCH signaling pathway in beta-cell dedifferentiation and proliferation in vitro.

RESEARCH DESIGN AND METHODS

Isolated human islets were dissociated into single cells. beta-Cells were genetically labeled using a Cre-lox system delivered by lentiviruses. Cells were analyzed for changes in expression of components of the NOTCH pathway during the initial weeks in culture. HES-1 expression was inhibited by a small hairpin RNA (shRNA), and the effects on beta-cell phenotype were analyzed.

RESULTS

Human beta-cell dedifferentiation and entrance into the cell cycle in vitro correlated with activation of the NOTCH pathway and downregulation of the cell cycle inhibitor p57. Inhibition of HES-1 expression using shRNA resulted in significantly reduced beta-cell replication and dedifferentiation.

CONCLUSIONS

These findings demonstrate that the NOTCH pathway is involved in determining beta-cell fate in vitro and suggest possible molecular targets for induction of beta-cell redifferentiation following in vitro expansion.

摘要

目的

从成人胰岛体外扩增β细胞可解决糖尿病细胞替代治疗中组织短缺的问题。人胰岛细胞培养通常导致细胞倍增次数少于16次且胰岛素表达丧失。通过细胞谱系追踪,我们证明扩增的细胞群体包括源自β细胞的细胞。了解体外β细胞命运所涉及的分子机制对于优化这些细胞的扩增和再分化至关重要。在发育中的胰腺中,重要的细胞命运决定由NOTCH受体调控,NOTCH受体通过毛状分裂增强子(HES)-1转录调节因子发出信号。在此,我们研究了NOTCH信号通路在体外β细胞去分化和增殖中的作用。

研究设计与方法

将分离的人胰岛解离为单细胞。使用慢病毒递送的Cre-lox系统对β细胞进行基因标记。分析培养最初几周内NOTCH通路成分表达的变化。用小发夹RNA(shRNA)抑制HES-1表达,并分析其对β细胞表型的影响。

结果

人β细胞体外去分化和进入细胞周期与NOTCH通路的激活及细胞周期抑制剂p57的下调相关。用shRNA抑制HES-1表达导致β细胞复制和去分化显著减少。

结论

这些发现表明NOTCH通路参与体外β细胞命运的决定,并提示体外扩增后诱导β细胞再分化的可能分子靶点。

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In vitro proliferation of cells derived from adult human beta-cells revealed by cell-lineage tracing.通过细胞谱系追踪揭示成人人类β细胞来源细胞的体外增殖
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Is cell size important?细胞大小重要吗?
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Endocrine precursor cells from mouse islets are not generated by epithelial-to-mesenchymal transition of mature beta cells.来自小鼠胰岛的内分泌前体细胞并非由成熟β细胞的上皮-间质转化产生。
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Targeting β-Cell Plasticity: A Promising Approach for Diabetes Treatment.靶向β细胞可塑性:一种有前景的糖尿病治疗方法。
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β-cell neogenesis: A rising star to rescue diabetes mellitus.β 细胞新生:治疗糖尿病的新兴之星。
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Beta cell dysfunction induced by bone morphogenetic protein (BMP)-2 is associated with histone modifications and decreased NeuroD1 chromatin binding.骨形态发生蛋白-2(BMP-2)诱导的β细胞功能障碍与组蛋白修饰和NeuroD1 染色质结合减少有关。
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Notch signaling dynamically regulates adult β cell proliferation and maturity.Notch 信号动态调节成年 β 细胞增殖和成熟。
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No evidence for mouse pancreatic beta-cell epithelial-mesenchymal transition in vitro.体外实验中未发现小鼠胰腺β细胞上皮-间质转化的证据。
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Lineage tracing evidence for in vitro dedifferentiation but rare proliferation of mouse pancreatic beta-cells.小鼠胰腺β细胞体外去分化但增殖罕见的谱系追踪证据
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Notch signaling reveals developmental plasticity of Pax4(+) pancreatic endocrine progenitors and shunts them to a duct fate.Notch信号通路揭示了Pax4(+)胰腺内分泌祖细胞的发育可塑性,并使其转向导管命运。
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