Treatment of Type 1 Diabetes through Genetically Engineered K-cell Transplantation in a Mouse Model

Korean diabetes journal Pub Date : 2009-12-01 DOI:10.4093/KDJ.2009.33.6.466

Juyeon Sim, J. Kim, Y. Ahn, K. Song, J. Han, B. Cha, Sook-Kyung Lee, S. Moon

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引用次数: 1

Abstract

Background: K-cells function as targets for insulin gene therapy. In a previous study, we constructed EBV-based plasmids expressing rat preproinsulin controlled by glucose-dependent insulinotropic polypeptide promoters. In the present study, we attempted to correct hyperglycemia in vivo using genetically engineered K-cells in a mouse model of type 1 diabetes. Methods: K-cells expressing insulin were transplanted under the kidney capsules of STZ-induced diabetic mice. The blood glucose levels and body weights of the experime ntal animals were measured daily. After four weeks, the mice were injected intra-peritoneally with 2 g/ kg glucose following a 6 hr fast. Blood glucose levels were measured immediately following glucose injections. All animals were sacrificed at the end of the glucose tolerance study, and pancreas and graft-bearing kidney tissue samples were stained with antibodies against insulin, glucagon, and C-peptide. Results: The body weights of K-cell-transplanted diabetic mice increased after transplantation, whereas those of untreated diabetic control mice continued to decline. The blood glucose levels of K-cell-transplanted diabetic mice decreased gradually during the two weeks following transplantation. After intra-peritoneal injection of glucose into K-cell-transplanted diabetic mice, blood glucose levels increased at 30 minutes, and were restored to the normal range between 60 and 90 minutes, while untreated control diabetic mice continued to experience hyperglycemia. Kidney capsules containi ng transplanted K-cells were removed, and sections were stained with anti-insulin antibodies. We detected insulin-positive cells in the kidney capsules of K-cell-transplanted diabetic mice, but not in untreated control mice. Conclusion: We detected glucose-dependent insulin secretion in genetically engineered K-cells in a mouse model of type 1 diabetes. Our results suggest that genetically modified insulin producing K-cells may act as surrogate β-cells to effectively treat type 1 diabetes. (Korean Diabetes J 33:466-474, 2009)

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通过基因工程k细胞移植治疗1型糖尿病的小鼠模型

背景:k细胞是胰岛素基因治疗的靶点。在之前的一项研究中，我们构建了基于ebv的质粒，表达由葡萄糖依赖性胰岛素促胰岛素多肽启动子控制的大鼠胰岛素前原。在本研究中，我们试图在1型糖尿病小鼠模型中使用基因工程k细胞在体内纠正高血糖。方法:将表达胰岛素的k细胞移植到stz诱导的糖尿病小鼠肾胶囊下。每天测量实验动物的血糖水平和体重。四周后，小鼠在禁食6小时后腹腔注射2 g/ kg葡萄糖。葡萄糖注射后立即测量血糖水平。在糖耐量研究结束时，所有动物都被处死，胰腺和移植肾组织样本用胰岛素、胰高血糖素和c肽抗体染色。结果:k细胞移植后糖尿病小鼠体重增加，而未治疗的糖尿病对照组体重继续下降。移植k细胞的糖尿病小鼠的血糖水平在移植后2周内逐渐下降。k细胞移植的糖尿病小鼠腹腔注射葡萄糖后，血糖水平在30分钟升高，并在60 - 90分钟恢复到正常范围，而未治疗的对照组糖尿病小鼠继续出现高血糖。取出含有移植k细胞的肾囊，切片用抗胰岛素抗体染色。我们在k细胞移植的糖尿病小鼠的肾胶囊中检测到胰岛素阳性细胞，但在未治疗的对照组小鼠中没有。结论:我们在1型糖尿病小鼠模型中检测到基因工程k细胞中葡萄糖依赖性胰岛素分泌。我们的研究结果表明，基因修饰的产生胰岛素的k细胞可以作为替代β细胞有效地治疗1型糖尿病。(韩国糖尿病杂志33:46 -474,2009)

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Korean diabetes journal

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