Researchers from AU, Denmark, have developed a molecule that can mimic a major metabolic response to regular and strenuous exercise and fasting by increasing levels of lactate and ketones in the blood, which are associated with several health benefits Peer-Reviewed Publication
Aarhus University
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The illustration to the left shows the chemical structure of LaKe. The graphs to the right show how the blood concentrations of lactate and ketones (BHB) change over time in rats that have ingested either LaKe (blue curves) or a control substance (black curves). Both lactate and BHB can be seen to increase significantly in the rats that have been given LaKe.
Credit: Aarhus University/Thomas Poulsen
It is well known that regular exercise and periodic fasting have a series of positive effects on the body. Exercise and skipping meals makes for a stronger heart and reduces fat levels in the blood. The explanation lies in the body’s natural reaction in which increasing levels of lactate (the salt of lactic acid) and ketones act as efficient fuel for cells which benefit the body’s organs.
A group of chemistry, metabolism and diabetes researchers from Aarhus University has now created a molecule that can induce the same metabolic effects, without physical exertion or fasting.
The study has just been published in the scientific journal: Journal of Agricultural and Food Chemistry.
Same effect as a 10 km run on an empty stomach
“We’ve developed a molecule that can mimic the body’s natural metabolic response to strenuous exercise and fasting. In practice, the molecule brings the body into a metabolic state corresponding to running 10 kilometres at high speed on an empty stomach,” explains Professor Thomas Poulsen from the Department of Chemistry at Aarhus University. He is one of the leading researchers behind the study.
“When lactate and ketone levels in the blood increase, the production of an appetite-suppressing hormone increases and the level of free fatty acids in the blood decreases. This has a number of health benefits, for example reducing the risk of developing metabolic syndrome.”
According to the professor, it is not possible to achieve the same effect through diet alone, since lactate and ketones, although they occur naturally, cannot be consumed in the necessary quantities without undesirable by-products such as acid and salt. This is where the new molecule, called LaKe, comes in.
Molecule > dietary supplements
The development of LaKe is the result of several years of research collaboration between Thomas Poulsen, Professor Mogens Johannsen from the Department of Forensic Medicine, and Chief physician and Professor Niels Møller, at the Department of Clinical Medicine and Steno Diabetes Center, Aarhus.
All three have researched metabolism from different angles, and they all already knew from their own and others’ studies that lactate and ketones have beneficial effects. It took them three years to make the chemical fusion of lactate and ketones, without the harmful ‘fellow passengers’ in the form of salt and acid.
“In a way, we’re not surprised by the effect, because we are combining well known substances. The innovation is that we have now created a molecule which allows us to artificially control the amounts of lactate and ketones safely,” says Thomas Poulsen.
So far, the molecule has only been tested on rats, but the first clinical trials in humans are now underway at Aarhus University Hospital. According to Thomas Poulsen, the trials are expected to pave the way for the molecule to become an advanced nutritional supplement. It will especially help people who cannot follow a strict exercise and diet plan.
“It can be difficult to maintain motivation to run many kilometres at high speed and go without food. For people with physical ailments such as a weak heart or general weakness, a nutritional supplement can be the key to better recovery,” explains Thomas Poulsen.
Perspectives for treatment of brain trauma
The molecule also has potential to alleviate concentration difficulties and may be used in the treatment of serious diseases such as Parkinson’s and dementia. These diseases are often characterized by low energy levels in the brain, which inhibit its optimal functioning.
“Because lactate can take over the role of glucose in the brain under stressful or traumatic conditions, there have been experiments to increase lactate levels in people with concussion. Patients who cannot perform strenuous exercise will benefit greatly from a drug that can boost these levels,” explains Thomas Poulsen.
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