The research, published in the journal Metabolism, found that the ingredient induces fat cells, or adipocytes, to start burning energy through a process called thermogenesis.
Scientists had previously observed that cinnamaldehyde appeared to protect mice against obesity and hyperglycemia. But the mechanisms underlying the effect were not well understood.
Researchers in the lab of Jun Wu, research assistant professor at the University of Michigan Life Sciences Institute, wanted to better understand cinnamaldehyde’s action and determine whether it might be protective in humans, too.
“Scientists were finding that this compound affected metabolism,” said Wu, who is also an assistant professor of molecular and integrative physiology at the University of Michigan Medical School. “So we wanted to figure out how—what pathway might be involved, what it looked like in mice, and what it looked like in human cells.”
Wu and her colleagues tested human adipocytes from volunteers representing a range of ages, ethnicities, and BMIs. When the cells were treated with cinnamaldehyde, the researchers noticed the increased expression of several genes and enzymes that enhance lipid metabolism. They also observed an increase in important metabolic regulatory proteins involved in thermogenesis.
Adipocytes normally store energy in the form of lipids. This long-term storage was beneficial to our distant ancestors, who had much less access to high-fat foods and thus a much greater need to store fat. That fat could then be used by the body in times of scarcity or in cold temperatures, which induce adipocytes to convert stored energy into heat.
“It’s only been relatively recently that energy surplus has become a problem,” Wu said. “Throughout [history], the opposite—energy deficiency—has been the problem. So any energy-consuming process usually turns off the moment the body doesn’t need it.”
With the rising obesity epidemic, researchers like Wu have been looking for ways to prompt fat cells to activate thermogenesis, turning those fat-burning processes back on.
Wu believes that cinnamaldehyde may offer one such activation method. And because it is already used widely in the food industry, it might be easier to convince patients to stick to a cinnamon-based treatment than to a traditional drug regimen.
“Cinnamon has been part of our diets for thousands of years, and people generally enjoy it,” Wu said. “So if it can help protect against obesity, too, it may offer an approach to metabolic health that is easier for patients to adhere to.”
Wu cautions that further study is needed to determine how best to harness cinnamaldehyde’s metabolic benefits without causing adverse side effects.
This article was originally published by the University of Michigan. Republished via Futurity.org under Creative Commons License 4.0.