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Obesity increases the risk of developing diabetes, but nobody knows the details of why this is the case. Researchers at the Sahlgrenska Academy in Sweden have now identified a protein that may play a role in increasing the risk. The discovery may in the long term lead to new methods of preventing type 2 diabetes.
Diabetes is a metabolic condition in which the body does not form sufficient quantities of insulin or in which the insulin that is formed does not have sufficient effect. The most common form of the disease is type 2 diabetes, which is the variant that adults can develop.
Most people who develop type 2 diabetes are overweight. Fat can accumulate in the muscles and liver of an obese person, leading to cell damage that in turn leads to a defect in the signalling from insulin. The result is an increase in the blood sugar level, and diabetes develops.
"The faulty storage of fat in the muscle cells interferes with the signal from the insulin that should stimulate increased absorption of sugar by the cells. The fat is stored in the cells in the form of fat droplets, and we have studied in detail how these are formed and how they grow. This has enabled us to show how the insulin signal is disrupted", says Professor Sven Olof Olofsson, director of the Wallenberg Laboratory at the Sahlgrenska Academy.
The research project used several advanced microscopy techniques to study lipid droplets in cultured muscle cells. It became clear that the lipid droplets merged with each other inside the cell by a process that involved a protein known as "SNAP23". This protein has another, independent, function - that of passing the insulin signal onwards into the cell.
"It appears that the SNAP23 is being 'stolen' from the insulin signalling process when the cell starts to pack fat, and this causes the defect that subsequently leads to diabetes. If we can find out more about how this works in detail, we may be able to influence the process and protect patients from developing diabetes", says Pontus Boström, PhD student at the Sahlgrenska Academy.
Further research will be necessary before the results can be tested in patients.
The results will be published in the next issue of the journal Nature Cell Biology.
Journal: Nature Cell Biology
Article title: SNARE proteins mediate fusion between cytosolic lipid droplets with implications for insulin sensitivity
Authors: Pontus Boström, Linda Andersson, Mikale Rutberg, Jeanna Perman, Ulf Lidberg, Bengt R. Johansson, Julia Fernandez-Rodriguez, Tommy Nilsson, Jan Borén and Sven-Olof Olofsson.
For more information, contact: Professor Sven Olof Olofsson, telephone: +46 31 342 1956, e-mail: sven-olof.olofsson@wlab.gu.se Dr. Pontus Boström, telephone: +46 31 342 2947, e-mail: pontus.bostrom@wlab.gu.se
http://www.nature.com/ncb/journal/vaop/ncurrent/full/ncb1648.html article in Nature Cell Biology
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