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联合胃泌素和表皮生长因子治疗可诱导用四氧嘧啶处理的C57Bl6/J小鼠的胰岛再生并恢复正常血糖水平。

Combined gastrin and epidermal growth factor treatment induces islet regeneration and restores normoglycaemia in C57Bl6/J mice treated with alloxan.

作者信息

Rooman I, Bouwens L

机构信息

Department of Cell Differentiation, Diabetes Research Center, Vrije Universiteit Brussel, Brussels, Belgium.

出版信息

Diabetologia. 2004 Feb;47(2):259-65. doi: 10.1007/s00125-003-1287-1. Epub 2003 Dec 10.

DOI:10.1007/s00125-003-1287-1
PMID:14666367
Abstract

AIMS/HYPOTHESIS: Increasing beta-cell mass and/or function could restore glucose homeostasis in diabetes mellitus. Hitherto, trophic factors for beta-cell regeneration after toxic events have been difficult to identify. We evaluated the application of gastrin and epidermal growth factor after alloxan-induced pancreatic beta-cell damage.

METHODS

After alloxan treatment (70 mg/kg), mice were implanted with Alzet osmotic minipumps releasing gastrin and epidermal growth factor for one week. We monitored glycaemia, did histological analyses of the pancreata and quantified pancreatic beta-cell mass and insulin content.

RESULTS

Alloxan treatment alone resulted in a persisting hyperglycaemic state. Combined gastrin and epidermal growth factor treatment restored normoglycaemia in 3 days, an effect which seemed permanent. Glucose tolerance tests showed normal glucose responsiveness. Gastrin on its own and epidermal growth factor on its own did not alleviate hyperglycaemia. Islet mass, islet density and pancreatic insulin content were higher in mice treated with gastrin and epidermal growth factor than in untreated mice with persisting hyperglycaemia. In normoglycaemic control mice treatment with gastrin and epidermal growth factor did not affect these parameters. We detected transitional cytokeratin-positive ductal to endocrine insulin-expressing cells and noted increased ductal but not beta-cell proliferation.

CONCLUSIONS/INTERPRETATION: Our results show that combined treatment with gastrin and epidermal growth factor can induce sufficient regeneration of a functional islet mass to restore glucose homeostasis.

摘要

目的/假设:增加β细胞量和/或功能可恢复糖尿病患者的葡萄糖稳态。迄今为止,毒性事件后β细胞再生的营养因子一直难以确定。我们评估了在四氧嘧啶诱导的胰腺β细胞损伤后胃泌素和表皮生长因子的应用。

方法

在四氧嘧啶治疗(70mg/kg)后,给小鼠植入释放胃泌素和表皮生长因子的Alzet渗透微型泵,持续一周。我们监测血糖,对胰腺进行组织学分析,并量化胰腺β细胞量和胰岛素含量。

结果

单独使用四氧嘧啶治疗导致持续的高血糖状态。联合使用胃泌素和表皮生长因子治疗在3天内恢复了正常血糖,且这种效果似乎是永久性的。葡萄糖耐量试验显示葡萄糖反应正常。单独使用胃泌素和单独使用表皮生长因子均未缓解高血糖。用胃泌素和表皮生长因子治疗的小鼠的胰岛量、胰岛密度和胰腺胰岛素含量高于持续高血糖的未治疗小鼠。在血糖正常的对照小鼠中,用胃泌素和表皮生长因子治疗不影响这些参数。我们检测到细胞角蛋白阳性的导管细胞向表达胰岛素的内分泌细胞转变,并注意到导管细胞增殖增加,但β细胞增殖未增加。

结论/解读:我们的结果表明,联合使用胃泌素和表皮生长因子可诱导功能性胰岛团充分再生,以恢复葡萄糖稳态。

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本文引用的文献

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Development of cell markers for the identification and expansion of islet progenitor cells.用于鉴定和扩增胰岛祖细胞的细胞标志物的开发。
Diabetes Metab Res Rev. 2003 Sep-Oct;19(5):363-74. doi: 10.1002/dmrr.406.
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Regeneration therapy of pancreatic beta cells: towards a cure for diabetes?胰腺β细胞再生疗法:有望治愈糖尿病?
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Molecular target structures in alloxan-induced diabetes in mice.小鼠中四氧嘧啶诱导糖尿病的分子靶标结构
骨形态发生蛋白 7 通过抑制铁死亡减轻糖尿病状态下的胰腺损伤并防止其进展为糖尿病肾病。
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Direct Reprogramming of Somatic Cells into Induced β-Cells: An Overview.体细胞直接重编程为诱导β细胞:概述。
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Approaches to Inducing β-Cell Regeneration.诱导β细胞再生的方法。
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Gastrin exerts a protective effect against myocardial infarction via promoting angiogenesis.胃泌素通过促进血管生成对心肌梗死发挥保护作用。
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Molecular mechanisms of transcription factor mediated cell reprogramming: conversion of liver to pancreas.转录因子介导的细胞重编程的分子机制:肝脏向胰腺的转化。
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Recombinant human betacellulin promotes the neogenesis of beta-cells and ameliorates glucose intolerance in mice with diabetes induced by selective alloxan perfusion.重组人β细胞ulin促进β细胞新生,并改善选择性四氧嘧啶灌注诱导的糖尿病小鼠的葡萄糖不耐受。
Diabetes. 2000 Dec;49(12):2021-7. doi: 10.2337/diabetes.49.12.2021.