New Mechanism Regulating Insulin Secretion May Explain Genetic Susceptibility To Diabetes
Media release
Maurice Wilkins Centre for Molecular Biodiscovery
A Centre of Research Excellence hosted by The University of Auckland
and
Faculty of Medical and Health Science The University of Auckland
4 February 2013
New mechanism regulating insulin secretion may explain genetic susceptibility to diabetes
New Zealand research revealing a new mechanism for how glucose stimulates insulin secretion may provide a new
explanation for how a gene that makes people more susceptible to diabetes – called TCF7L2 – actually contributes to the
disease.
“It has long been known that insulin is secreted from beta-cells in the pancreas, in response to rising blood glucose
levels, and that the insulin in turn controls glucose levels,” explains team leader Professor Peter Shepherd from the
Maurice Wilkins Centre for Molecular Biodiscovery and The University of Auckland. “However the mechanisms controlling
insulin secretion have not been fully understood.”
The latest research in Professor Shepherd’s laboratory has revealed the missing link in a series of chemical signals by
which glucose stimulates insulin secretion from beta-cells. The scientists found that a signalling molecule called
cyclic-AMP acts to stabilise beta-catenin, a protein they show has an important role in regulating beta-cell function,
including the release of insulin in response to glucose.
“This is important as Type-2 diabetes is increasing to epidemic proportions worldwide. It is caused by defective insulin
release from beta-cells, and the resulting failure to control blood glucose levels. In order to understand the disease
it’s important to learn about the mechanism that control insulin secretion,” says lead researcher Dr Emmanuelle Cognard,
also from The University of Auckland.
This newly discovered signalling pathway may explain how one of the major diabetes susceptibility genes, called TCF7L2,
can impair insulin secretion, as TCF7L2 redirects beta-catenin away from the cell surface and so would reduce the effect
of beta-catenin on insulin secretion. The research is likely to influence the way new drugs to treat Type-2 diabetes are
designed.
The research, which was funded by the Health Research Council of New Zealand, has been published in the February 2013
issue of the Biochemical Journal.
Notes
The Maurice Wilkins Centre is New Zealand’s Centre of Research Excellence for the discovery of new treatments and
diagnostics for human disease. It brings together leading biologists, chemists, and computer scientists to target
serious diseases, focusing on infectious disease, cancer and diabetes. It includes researchers with world-class
reputations for designing new drugs for these diseases, several of which are in clinical trials.
The Maurice Wilkins Centre is hosted by The University of Auckland and incorporates researchers from six New Zealand
Universities, three Crown Research Institutes and a private research institute: The University of Auckland, University
of Otago, Victoria University, University of Waikato, University of Canterbury, Massey University, Industrial Research
Limited, Plant & Food Research, AgResearch, and the Malaghan Institute of Medical Research.
ENDS