Protection of β-cell transplants in Type I diabetes by induction of an immunosuppressive environment: The Symbiotic Defence Cell (SDC) strategy

This paper describes a novel strategy to confine transplanted beta -cells in a natural immune suppressive matrix barrier which could provide new avenues for insights into beta -cell transplantation without the use of harmful medication. Type I diabetes is characterized by autoimmune destruction of t...

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Published in:Bioscience hypotheses 2008-01, Vol.1 (2), p.90-92
Main Authors: Hoffmann, Roland F., Visser, Jeroen T.J., Peppelenbosch, Maikel P.
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creator Hoffmann, Roland F.
Visser, Jeroen T.J.
Peppelenbosch, Maikel P.
description This paper describes a novel strategy to confine transplanted beta -cells in a natural immune suppressive matrix barrier which could provide new avenues for insights into beta -cell transplantation without the use of harmful medication. Type I diabetes is characterized by autoimmune destruction of the endocrine pancreas islets. In our hypothetical strategy we include various aspects that could be beneficial for successful beta -cell transplantation, dependent on the pathology-specific expression of immune response dampening molecules. Here we propose a novel strategy involving local inflammation- specific induction of immunosuppressive proteins by a Symbiotic Defence Cell (SDC). SDC is a helper cell line that could form a surrounding matrix barrier disallowing autoimmune cells to reach and destroy the pancreatic beta -cells. This immunosuppressive barrier consists of usable secretion of immunosuppressive proteins like Tumor Necrosis Factor inhibitor (TNFi), Soluble Cytotoxic T Lymphocyte Antigen-4 ligand (CTLA-4 ligand) and Insulin- like Growth Factor-I (IGF-I).
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title Protection of β-cell transplants in Type I diabetes by induction of an immunosuppressive environment: The Symbiotic Defence Cell (SDC) strategy
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