Glucose regulates secretion of exogenously expressed insulin from HepG2 cells in vitro and in a mouse model of diabetes mellitus in vivo

Liu, Y Y; Jia, Wei Hua; Wanke, Irene; Muruve, D A; Xiao, Haipeng; Wong, Nicole

doi:10.1530/jme-12-0239

Cited by 2 publications

(1 citation statement)

References 37 publications

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“…While the strategy of using a one-time administration of AAV8-R3GHLP-hINSco may still require multiple daily injections of rapid/short-acting insulin to reduce post-meal glucose excursions [37], it may simulate the endogenous constitutive insulin secretion more effectively than the long/ultra-acting insulin, thereby reducing glycemic variability [4,38]. Further research to design strategies to store the excess insulin in hepatocytes and secrete it upon induction by glucose challenge [39,40] may potentially help to overcome the limitations of the current glucose responsive promoters.…”

Section: Discussionmentioning

confidence: 99%

Modification of a Constitutive to Glucose-Responsive Liver-Specific Promoter Resulted in Increased Efficacy of Adeno-Associated Virus Serotype 8-Insulin Gene Therapy of Diabetic Mice

Sia

Calne

et al. 2020

Cells

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We have previously used a hepatotropic adeno-associated viral (AAV) vector with a modified human insulin gene to treat diabetic mice. The HLP (hybrid liver-specific promoter) used was constitutively active and non-responsive to glucose. In this study, we examined the effects of addition of glucose responsive elements (R3G) and incorporation of a 3′ albumin enhancer (3′iALB) on insulin expression. In comparison with the original promoter, glucose responsiveness was only observed in the modified promoters in vitro with a 36 h lag time before the peak expression. A 50% decrease in the number of viral particles at 5 × 109 vector genome (vg)/mouse was required by AAV8-R3GHLP-hINSco to reduce the blood sugar level to near normoglycemia when compared to the original AAV8-HLP-hINSco that needed 1 × 1010 vg/mouse. The further inclusion of an 860 base-pairs 3′iALB enhancer component in the 3′ untranslated region increased the in vitro gene expression significantly but this increase was not observed when the packaged virus was systemically injected in vivo. The addition of R3G to the HLP promoter in the AAV8-human insulin vector increased the insulin expression and secretion, thereby lowering the required dosage for basal insulin treatment. This in turn reduces the risk of liver toxicity and cost of vector production.

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Section: Discussionmentioning

confidence: 99%

Modification of a Constitutive to Glucose-Responsive Liver-Specific Promoter Resulted in Increased Efficacy of Adeno-Associated Virus Serotype 8-Insulin Gene Therapy of Diabetic Mice

Sia

Calne

et al. 2020

Cells

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Glucose-Activated Switch Regulating Insulin Analog Secretion Enables Long-term Precise Glucose Control in Mice With Type 1 Diabetes

Xie

Zhang

et al. 2023

Diabetes

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Genetic modification of non-β cells to produce insulin is a promising therapeutic strategy for type 1 diabetes, however, it is associated with issues including biosafety and precise regulation of insulin supply. In this study, a glucose-activated singlestrand insulin analogue (SIA) switch (GAIS) was constructed to achieve repeatable pulse activation of SIA secretion in response to hyperglycemia. In the GAIS system, the CAD-FCS-SIA fusion protein was encoded by the intramuscularly delivered plasmid and temporarily kept in the endoplasmic reticulum (ER) as it binds to the GRP78 protein, then upon hyperglycemia, SIA was released and secreted into the blood. In vitro and in vivo experiments systematically demonstrated the effects of the GAIS system, including glucose-activated and repeatable SIA secretion, long-term precise blood glucose control, recovered HbA1c level, improved glucose tolerance, and ameliorated oxidative stress. Additionally, this system offers sufficient biosafety as evidenced by the assays of immunological and inflammatory safety, ER stress, histological evaluation, etc. Compared with the viral delivery/expression system, the ex vivo implantation of engineered cells, and the exogenous inducer system, the GAIS system combined the advantages of biosafety, effectiveness, persistence, precision, and convenience, providing therapeutic potential for the treatment of type 1 diabetes. Article Highlights We undertake this study to establish a glucose-responsive SIA self-supply system in vivo. Whether ER can serve as a safe and temporary repository to store designed fusion proteins and release SIAs under hyperglycemia condition for efficient blood glucose regulation. Intramuscularly expressed plasmid-encoded CAD-FCS-SIA fusion protein can be temporarily stored in ER and SIA can be released under the stimulation of hyperglycemia, resulting in efficient and long-term regulation of blood glucose stable in T1D mice. GAIS system provides applicable potential for type 1 diabetes therapy integrating regulation and monitor of blood glucose level.

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Glucose regulates secretion of exogenously expressed insulin from HepG2 cells in vitro and in a mouse model of diabetes mellitus in vivo

Cited by 2 publications

References 37 publications

Modification of a Constitutive to Glucose-Responsive Liver-Specific Promoter Resulted in Increased Efficacy of Adeno-Associated Virus Serotype 8-Insulin Gene Therapy of Diabetic Mice

Modification of a Constitutive to Glucose-Responsive Liver-Specific Promoter Resulted in Increased Efficacy of Adeno-Associated Virus Serotype 8-Insulin Gene Therapy of Diabetic Mice

Glucose-Activated Switch Regulating Insulin Analog Secretion Enables Long-term Precise Glucose Control in Mice With Type 1 Diabetes

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