New Method Shows Widespread Metabolic Dysregulation in Different Organs in Type 2 Diabetes
The most typical alterations in people with type 2 diabetes are insufficient secretion of insulin and reduced sensitivity to insulin in different organs. To examine what happens in these organs when type 2 diabetes develops, the researchers in the current study have looked at proteins both in the cell islets in the pancreas where insulin is produced, and in the main tissues that insulin acts on, namely the liver, skeletal muscle, fat and blood, the journal Cell Reports Medicine reported.
The researchers compared proteins in samples from people with type 2 diabetes, prediabetes, i.e. a stage before fully developed type 2 diabetes, and without any diabetes. The results showed far more disturbances in metabolic pathways than previously known. There was also a correlation between the alterations and the different stages of the disease.
"We detected many protein levels that were either higher or lower than normal in tissues from people at different stages of disease. People with prediabetes displayed major alterations that are associated with inflammation, coagulation and the immune system in the pancreatic islets. In fully developed type 2 diabetes there were more widespread abnormalities, for example in lipid and glucose metabolism and in energy production in the liver, muscle and fat," says Professor Claes Wadelius, who coordinated the study.
The study builds on tissue samples collected from donors at different stages of disease and healthy individuals. The samples have been collected in the strategic initiative EXODIAB, which is led in Uppsala by Professor Olle Korsgren.
Using novel techniques, the researchers could quantify thousands of proteins from each organ and therefore obtain a view of the metabolism that has not been possible before.
"The techniques for measuring proteins have evolved rapidly in recent years and our colleagues at Copenhagen University who participated in the study are world leaders in the field," says Dr Klev Diamanti, who performed the analyses in Uppsala together with Associate Professor Marco Cavalli and Professor Jan Eriksson.
In summary, the findings show a highly disturbed metabolism in different pathways in examined organs and at different stages of disease. The data points to new potentially causal mechanisms of the disease, which can be further investigated in the search for new ways of preventing or treating type 2 diabetes.
"Our results may also support the development of simple tests that can identify people at high risk of diabetes and its complications, and also guide which type of intervention is best for the individual," says clinical diabetologist Jan Eriksson.
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