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01-10-2016 | Article

The S20G substitution in hIAPP is more amyloidogenic and cytotoxic than wild-type hIAPP in mouse islets

Authors: Daniel T. Meier, Leon Entrup, Andrew T. Templin, Meghan F. Hogan, Mahnaz Mellati, Sakeneh Zraika, Rebecca L. Hull, Steven E. Kahn

Published in: Diabetologia | Issue 10/2016

Abstract

Aims/hypothesis

The S20G human islet amyloid polypeptide (hIAPP) substitution is associated with an earlier onset of type 2 diabetes in humans. Studies of synthetic S20G hIAPP in cell-free systems and immortalised beta cells have suggested that this may be due to increased hIAPP amyloidogenicity and cytotoxicity. Thus, using primary islets from mice with endogenous S20G hIAPP expression, we sought to determine whether the S20G gene mutation leads to increased amyloid-induced toxicity, beta cell loss and reduced beta cell function.

Methods

Islets from mice in which mouse Iapp was replaced with human wild-type or S20G hIAPP were isolated and cultured in vitro under amyloid-forming conditions. Levels of insulin and hIAPP mRNA and protein, amyloid deposition and beta cell apoptosis and area, as well as glucose-stimulated insulin and hIAPP secretion, were quantified.

Results

Islets expressing S20G hIAPP cultured in 16.7 mmol/l glucose demonstrated increased amyloid deposition and beta cell apoptosis, reduced beta cell area, decreased insulin content and diminished glucose-stimulated insulin secretion, compared with islets expressing wild-type hIAPP. Amyloid deposition and beta cell apoptosis were also increased when S20G islets were cultured in 11.1 mmol/l glucose (the concentration that is thought to be physiological for mouse islets).

Conclusions/interpretation

S20G hIAPP reduces beta cell number and function, thereby possibly explaining the earlier onset of type 2 diabetes in individuals carrying this gene mutation.

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Title: The S20G substitution in hIAPP is more amyloidogenic and cytotoxic than wild-type hIAPP in mouse islets
Authors: Daniel T. Meier
Leon Entrup
Andrew T. Templin
Meghan F. Hogan
Mahnaz Mellati
Sakeneh Zraika
Rebecca L. Hull
Steven E. Kahn
Publication date: 01-10-2016
Publisher: Springer Berlin Heidelberg
Published in: Diabetologia / Issue 10/2016
Print ISSN: 0012-186X
Electronic ISSN: 1432-0428
DOI: https://doi.org/10.1007/s00125-016-4045-x

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The S20G substitution in hIAPP is more amyloidogenic and cytotoxic than wild-type hIAPP in mouse islets

Abstract

Aims/hypothesis

Methods

Results

Conclusions/interpretation

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Abstract

Aims/hypothesis

Methods

Results

Conclusions/interpretation

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