Fighting fat with fat
The researchers suspect that a disorder of the brown fatty tissue can lead to obesity in adults. If it were possible to turn on the 'natural heating system' on again, the problem of unwanted fat would be quickly solved: according to estimates, 50 grams of active brown fatty tissue is sufficient for increasing the basal metabolic rate by 20 per cent.
"With the same nutrition and activity the fat reserves would melt at a rate of five kilos per year," Professor Pfeifer explains. "This makes our results interesting from a therapeutic perspective. By blocking the PKG signaling path in the brown fat we basically want to fight fat with fat."
Separate New England Journal of Medicine Forecast - Obesity Gains are Offsetting Gains from Smoking Reduction
In an effort to forecast the effect of the rise in obesity and decline in smoking on health at the population level over the next decade, researchers from Harvard University and the University of Michigan examined data from national health surveys conducted from the early 1970s through 2006.
Over the next decade the health benefits achieved because fewer Americans are smoking will be more than overshadowed by the negative health effects of the unchecked rise in obesity, new research (Harvard/Michigan) suggests.
If all adults in the United States stopped smoking and achieved a normal weight by 2020, the life expectancy of an 18-year-old would increase by nearly four years, according to the forecast.
Brown adipose tissue is different from white fat pads. It contains loads of mitochondria, miniature power stations which among other things can 'burn' fat. In doing this, they normally generate a voltage similar to that of a battery, which then provides energy for cellular processes. However, the mitochondria of brown fat cells have a short circuit. They go full steam ahead all the time. The energy released when the fat is broken down is released as heat.
'This is actually what is intended,' Professor Alexander Pfeifer from the Bonn PharmaCentre explains. 'Brown fat acts like a natural heating system.' For example, babies would get cold very quickly without this mechanism. Up to now, it was thought that brown fat only occurred in newborn babies and was lost with age. However, this year different groups were able to show that this is not true: even adults have a deposit of brown fat in the neck area. But with very overweight people this deposit is only moderately active or is completely absent.
PKG turns on the heating
The scientists from Bonn, Heidelberg, Cologne, Martinsried and the Federal Institute of Drugs and Medical Products (BfArM) were now able to show which signals prompt the body to produce brown fat cells. A signalling pathway which is controlled by the PKG enzyme takes on a key role in this process. This signalling pathway results in the stem cells of the fatty tissue becoming brown fat cells. For this it switches on the mass production of mitochondria and ensures that UCP is formed, the substance that creates the short circuit. 'Furthermore, we were able to show that PKG makes brown fat cells susceptible to insulin,' Alexander Pfeifer explains. 'Therefore PKG also controls how much fat is burnt in general.'
Mice without PKG have a lower body temperature, as the researchers were able to show with a thermographic camera. Above all, animals in the thermal image lack an 'energy spot' between the shoulder blades, i.e. the place where normally the brown fat is active.
Babies get cold quickly. That is why nature has equipped them with a special heating system, brown fat cells. Their only purpose is to burn fat, thereby generating heat. It only has recently become known that such cells also occur in adults. Scientists at the University of Bonn have now found a new signalling pathway which stimulates the production and function of brown fat cells. They propose using the natural heating system in order to just 'burn' unwanted excess fat. Scientists from Heidelberg, Cologne, Martinsried and the Federal Institute of Drugs and Medical Products (Bundesinstitut für Arzneimittel und Medizinprodukte, BfArM) were also involved in the study. The results will be published in the journal Science Signaling on 1st December (doi: 10.1126/scisignal.2000511).