2013
DOI: 10.1371/journal.pone.0067515
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Correction of Diabetic Hyperglycemia and Amelioration of Metabolic Anomalies by Minicircle DNA Mediated Glucose-Dependent Hepatic Insulin Production

Abstract: Type 1 diabetes mellitus (T1DM) is caused by immune destruction of insulin-producing pancreatic β-cells. Commonly used insulin injection therapy does not provide a dynamic blood glucose control to prevent long-term systemic T1DM-associated damages. Donor shortage and the limited long-term success of islet transplants have stimulated the development of novel therapies for T1DM. Gene therapy-based glucose-regulated hepatic insulin production is a promising strategy to treat T1DM. We have developed gene construct… Show more

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Cited by 23 publications
(35 citation statements)
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“…So far, various therapeutic strategies have been used for improving type 1 diabetes, including functional pancreatic tissue or β cells transplantation in type 1 diabetes patients and conversion of mesenchymal stem cells into pancreatic islet cells (24). Islet β cells transplantation as a promising therapy for type 1 diabetes patients can control blood glucose level and accomplish insulin; however, insulin therapy is still a major approach, because the pancreas donors are limited, and long-term immune system suppression is needed too (22,25,26). Nevertheless, there are many major problems about islet transplantation such as adverse immune responses induced by the islet transplantation process, host autoimmunity recurrence, allorejection and shortage of organ donors (27).…”
Section: Discussionmentioning
confidence: 99%
“…So far, various therapeutic strategies have been used for improving type 1 diabetes, including functional pancreatic tissue or β cells transplantation in type 1 diabetes patients and conversion of mesenchymal stem cells into pancreatic islet cells (24). Islet β cells transplantation as a promising therapy for type 1 diabetes patients can control blood glucose level and accomplish insulin; however, insulin therapy is still a major approach, because the pancreas donors are limited, and long-term immune system suppression is needed too (22,25,26). Nevertheless, there are many major problems about islet transplantation such as adverse immune responses induced by the islet transplantation process, host autoimmunity recurrence, allorejection and shortage of organ donors (27).…”
Section: Discussionmentioning
confidence: 99%
“…Thus, we selected a DNA construct that contained the α-fetoprotein transcriptional enhancer, vascular endothelial growth factor translational enhancer, and albumin 3'-untranslated region in addition to the 3 copies of glucose-inducible responsive elements, albumin promoter and human insulin gene (Figure 1). 34 When testing this insulin construct for its ability to improve the overall phenotype of streptozotocintreated diabetic rats, we were not only able to induce normoglycemia in fasting rats but also rats fed ad libitum (Figure 2). In treated diabetic rats, we were also able to correct weight loss due to uncontrolled hyperglycemia such that the rate of weight gain matched that of healthy control rats for at least 1 month (Figure 3).…”
Section: Insulin Gene Therapymentioning
confidence: 99%
“…Both viral and nonviral vector-based gene delivery methods have been used for insulin gene therapy applications, with each showing successful amelioration of diabetesassociated hyperglycemia in small animal models. [33][34][35] However, nonviral gene delivery methods are limited by their inefficient delivery to target cells and lack of chromosomal integration, which restricts the longevity of gene expression. As such, viral vectors have been used more prevalently in insulin gene therapy applications and are ultimately the future of the therapy.…”
Section: Insulin Gene Therapymentioning
confidence: 99%
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