º¬Ðß²ÝÊÓƵ to investigate link between obesity gene and weight gain
Researchers at º¬Ðß²ÝÊÓƵ will join forces with a group of academics specialising in fitness genetics to explore whether weight gain is accelerated by the obesity gene FTO.
DNA is thought to be a major factor in determining whether a person will become overweight, and the FTO gene was the first to be identified as having a powerful influence on weight. With this in mind, Dr David Stensel, Reader in Exercise Metabolism and Associate Dean for Enterprise in the School of Sport, Exercise and Health Sciences at º¬Ðß²ÝÊÓƵ, will work with the science team at Oxford-based MuscleGenes on a study into the interaction between genetics and lifestyle factors to better understand how genes may be linked to bodyweight.
Previous studies on the ‘high risk’ version of the FTO gene showed that fatty foods were more tempting to carriers of the gene, who also had altered levels of ghrelin, the hunger hormone. This means that some people are biologically programmed to eat more and may prefer higher calorie foods.
The team at MuscleGenes comprises of two PhD geneticists, a medical doctor and a certified nutritionist who are developing an evidence-based system that helps its customers use their DNA profile to determine which training and nutritional plans are likely to help build up muscle or burn fat.
Dr Stensel said: “Understanding how FTO affects the odds of people becoming overweight is an important area of research that could make a difference to people’s lives. Obesity is one of the biggest health challenges of the 21st Century, with approximately two-thirds of UK adults now being classed as overweight or obese. This puts them at increased risk of high blood pressure, type 2 diabetes and heart disease.
“It is hoped this study will provide some clarity on how physical activity levels will interact with the FTO gene. It is possible that being physically active will counteract the increased appetites of those with the ‘high risk’ version of the FTO gene. Alternatively, the opposite might be true. We are hoping our research collaboration with MuscleGenes will shed some light on this.”
Dr Samantha Decombel, Chief Operating Officer of MuscleGenes and a PhD geneticist, said: “We’re extremely excited to be working with Dr Stensel and º¬Ðß²ÝÊÓƵ on our first formal academic collaboration.
“It is our belief that part of the problem with the genetic testing industry has been the lack of actionable information provided to customers. We will start to more fully realise the benefits a personalised fitness training and nutrition plan can bring us all by working with academic groups to help further the research, by constantly challenging the assumptions on which our recommendations are based, and also, importantly, by overlaying relevant environmental information such as eating behaviour, weight and activity levels.”