Non-viral systemic delivery of Fas siRNA suppresses cyclophosphamide-induced diabetes in NOD mice

Ji Hoon Jeong; Sun Hwa Kim; Minhyung Lee; Won Jong Kim; Tae Gwan Park; Kyung Soo Ko; Sung Wan Kim

doi:10.1016/j.jconrel.2009.12.005

Non-viral systemic delivery of Fas siRNA suppresses cyclophosphamide-induced diabetes in NOD mice

Ji Hoon Jeong
, Sun Hwa Kim
, Minhyung Lee
, Won Jong Kim
, Tae Gwan Park
, Kyung Soo Ko
, Sung Wan Kim

Functional Hybrid Nanomaterials

Research output: Contribution to journal › Article › peer-review

31 Scopus citations

Abstract

A membrane receptor, Fas (CD95), and its ligand FasL have been considered as key players in diabetes pathogenesis. They are known to mediate interactions between Β cells and cytotoxic T cells, which results in apoptotic cell death. We hypothesized that the interruption of Fas-FasL interactions by suppressing Fas expression in Β cells would affect the development of diabetes. The effect of Fas-silencing siRNA (Fas siRNA) on diabetes development was evaluated in a cyclophosphamide (CY)-accelerated diabetes animal model after intravenous administration using a polymeric carrier, polyethylenimine (PEI). The systemic non-viral delivery of Fas siRNA showed significant delay in diabetes incidence up to 40. days, while the control mice treated with naked Fas siRNA, scrambled dsRNA, or PBS were afflicted with diabetes within 20. days. The retardation of diabetes incidence after the treatment of Fas siRNA may be due to the delayed progression of the pancreatic insulitis. In this study, the potential use of a non-viral carrier based siRNA gene therapy for the prevention of type-1 diabetes is demonstrated.

Original language	English
Pages (from-to)	88-94
Number of pages	7
Journal	Journal of Controlled Release
Volume	143
Issue number	1
DOIs	https://doi.org/10.1016/j.jconrel.2009.12.005
State	Published - Apr 2010

Funding

This research was supported by the National Research Foundation of Korea (NRF) funded by the Ministry of Education, Science and Technology ( 2008-0059223, 2009-0088722 ) and by the grant from the US NIH ( NIDDK-DK77703 ).

Keywords

Fas
Gene delivery
Non-viral vector
SiRNA
Type-1 diabetes

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10.1016/j.jconrel.2009.12.005

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title = "Non-viral systemic delivery of Fas siRNA suppresses cyclophosphamide-induced diabetes in NOD mice",

abstract = "A membrane receptor, Fas (CD95), and its ligand FasL have been considered as key players in diabetes pathogenesis. They are known to mediate interactions between Β cells and cytotoxic T cells, which results in apoptotic cell death. We hypothesized that the interruption of Fas-FasL interactions by suppressing Fas expression in Β cells would affect the development of diabetes. The effect of Fas-silencing siRNA (Fas siRNA) on diabetes development was evaluated in a cyclophosphamide (CY)-accelerated diabetes animal model after intravenous administration using a polymeric carrier, polyethylenimine (PEI). The systemic non-viral delivery of Fas siRNA showed significant delay in diabetes incidence up to 40. days, while the control mice treated with naked Fas siRNA, scrambled dsRNA, or PBS were afflicted with diabetes within 20. days. The retardation of diabetes incidence after the treatment of Fas siRNA may be due to the delayed progression of the pancreatic insulitis. In this study, the potential use of a non-viral carrier based siRNA gene therapy for the prevention of type-1 diabetes is demonstrated.",

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AU - Jeong, Ji Hoon

AU - Kim, Sun Hwa

AU - Lee, Minhyung

AU - Kim, Won Jong

AU - Park, Tae Gwan

AU - Ko, Kyung Soo

AU - Kim, Sung Wan

PY - 2010/4

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N2 - A membrane receptor, Fas (CD95), and its ligand FasL have been considered as key players in diabetes pathogenesis. They are known to mediate interactions between Β cells and cytotoxic T cells, which results in apoptotic cell death. We hypothesized that the interruption of Fas-FasL interactions by suppressing Fas expression in Β cells would affect the development of diabetes. The effect of Fas-silencing siRNA (Fas siRNA) on diabetes development was evaluated in a cyclophosphamide (CY)-accelerated diabetes animal model after intravenous administration using a polymeric carrier, polyethylenimine (PEI). The systemic non-viral delivery of Fas siRNA showed significant delay in diabetes incidence up to 40. days, while the control mice treated with naked Fas siRNA, scrambled dsRNA, or PBS were afflicted with diabetes within 20. days. The retardation of diabetes incidence after the treatment of Fas siRNA may be due to the delayed progression of the pancreatic insulitis. In this study, the potential use of a non-viral carrier based siRNA gene therapy for the prevention of type-1 diabetes is demonstrated.

AB - A membrane receptor, Fas (CD95), and its ligand FasL have been considered as key players in diabetes pathogenesis. They are known to mediate interactions between Β cells and cytotoxic T cells, which results in apoptotic cell death. We hypothesized that the interruption of Fas-FasL interactions by suppressing Fas expression in Β cells would affect the development of diabetes. The effect of Fas-silencing siRNA (Fas siRNA) on diabetes development was evaluated in a cyclophosphamide (CY)-accelerated diabetes animal model after intravenous administration using a polymeric carrier, polyethylenimine (PEI). The systemic non-viral delivery of Fas siRNA showed significant delay in diabetes incidence up to 40. days, while the control mice treated with naked Fas siRNA, scrambled dsRNA, or PBS were afflicted with diabetes within 20. days. The retardation of diabetes incidence after the treatment of Fas siRNA may be due to the delayed progression of the pancreatic insulitis. In this study, the potential use of a non-viral carrier based siRNA gene therapy for the prevention of type-1 diabetes is demonstrated.

KW - Fas

KW - Gene delivery

KW - Non-viral vector

KW - SiRNA

KW - Type-1 diabetes

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M3 - Article

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SN - 0168-3659

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JO - Journal of Controlled Release

JF - Journal of Controlled Release

IS - 1

ER -

Non-viral systemic delivery of Fas siRNA suppresses cyclophosphamide-induced diabetes in NOD mice

Abstract

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