Menu

Javascript is not activated in your browser. This website needs javascript activated to work properly.
You are here

New method measures the risk of type 2 diabetes in blood

Researchers at Lund University in Sweden have found a new type of biomarker that can predict the risk of type 2 diabetes, by detecting epigenetic changes in specific genes through a simple blood test. The results are published today in Nature Communications.
Type 2 diabetes is increasing worldwide. Through using a new type of biomarker, we are now able to better predict the risk of type 2 diabetes. Photo: MostPhotos
Type 2 diabetes is increasing worldwide. Through using a new type of biomarker, we are now able to better predict the risk of type 2 diabetes. Photo: MostPhotos

“This could motivate a person at risk to change their lifestyle”, says Karl Bacos, researcher in epigenetics at Lund University.

Predicting the onset of diabetes is already possible by measuring the blood glucose level average, HbA1C, over time. However, the predictive potential of this method is modest and new methods are needed.

The discoveries made by the research group at Lund University have now made it possible to measure the presence of so-called DNA methylations in four specific genes, and thereby predict who is at risk of developing type 2 diabetes, long before the disease occurs. Methylations are chemical changes that control gene activity, that is, whether they are active or not.

“The hope is that this will be developed into a better way to predict the disease”, says Karl Bacos, first author of the study.

Researcher Karl Baco. Photo: Sara Liedholm
Researcher Karl Baco. Photo: Sara Liedholm

The researchers started by studying insulin-producing beta cells from deceased persons. They found that the DNA methylations in the four genes in question increased, depending on the donor’s age. This in turn affected the activity of the genes.

When these changes were copied in cultured beta cells, they proved to have a positive effect on insulin secretion.

“We could then see the same DNA methylation changes in the blood which was really cool”, says Karl Bacos.

The blood samples from the participants of two separate research projects – one Danish and one Finnish – were then studied and compared with blood samples taken from the same participants ten years later. The Finnish participants, who had exhibited higher levels of DNA methylation in their first sample, had a lower risk of type 2 diabetes ten years later. In the Danish participants, higher DNA methylation in their first sample was associated with higher insulin secretion ten years later. All of the Danish participants were healthy on both occasions, whereas approximately one-third of the Finnish participants had developed type 2 diabetes.

“Increased insulin secretion actually protects against type 2 diabetes. It could be the body’s way of protecting itself when other tissue becomes resistant to insulin, which often happens as we get older”, says professor and research project manager Charlotte Ling.

Researcher Charlotte Ling Menander. Photo: Gunnar Menander
Researcher Charlotte Ling Menander. Photo: Gunnar Menander

The studies were based on a relatively small number of participants, and a selection of genes. The researchers therefore now want to continue with finding markers with a stronger predictive potential by implementing so-called epigenetic whole-genome sequencing when analysing a person’s entire genetic make-up and all the DNA methylations that come with it, in a larger population group.

The research group has previously shown that age, diet and exercise affect the so-called epigenetic risk of type 2 diabetes.

“You cannot change your genes and the risks that they entail, but epigenetics means that you can affect the DNA methylations, and thereby gene activity, through lifestyle choices”, says Charlotte Ling.


Download article: Blood-based biomarkers of age-associated epigenetic changes in human islets associate with insulin secretion and diabetes. Bacos K et al. 2016. Nature Communications

Contact
Karl Bacos, researcher at Lund University
Email: carl [dot] bacos [at] med [dot] lu [dot] se
Tel: +46 40 39 12 19; +46 734 05 64 63

Charlotte Ling, professor in diabetes research at Lund University, and research project manager
Ttel: +46 40 39 12 13, +46 706 14 51 46
Email: charlotte [dot] ling [at] med [dot] lu [dot] se

Related reading

Article: Type 2 diabetes risk starts in pregnancy
Article: High-fat dairy products linked to reduced type 2 diabetes risk
Article: New discoveries on the connection between nicotine and type 2 diabetes

Categories

Facts/Type 2 diabetes

Type 2 diabetes is increasing worldwide. The cause of the disease is a mix of genes and an increasingly sedentary lifestyle, combined with too much unhealthy food. We get ill when our bodies are no longer able to produce enough insulin, often combined with our bodies’ tissue not being able to respond to insulin and take up sugar, so-called insulin resistance. This leads to elevated blood sugar levels, which damages the nerves, kidneys, and leads to cardiovascular disease.

Latest news

17 April 2019

LU student named "Global Swede 2019"

LU student named "Global Swede 2019"
12 April 2019

Abnormal proteins correlate with criminal behaviour in dementia

Abnormal proteins correlate with criminal behaviour in dementia
12 April 2019

How much land do we need to produce enough food, bioenergy and forest? New digital technology provides more reliable prognoses

How much land do we need to produce enough food, bioenergy and forest? New digital technology provides more reliable prognoses
11 April 2019

Access to clean water is not an option for everyone. Lund researchers are helping rural areas in Kazakhstan

Access to clean water is not an option for everyone. Lund researchers are helping rural areas in Kazakhstan
11 April 2019

WATCH: Lund University students develop smart living plant wall

WATCH: Lund University students develop smart living plant wall