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Molecule found in oranges could reduce obesity and prevent heart disease and diabetes

Researchers at Western University are studying a molecule found in sweet oranges and tangerines called nobiletin, which they have shown to drastically reduce obesity in mice and reverse its negative side-effects. But why it works remains a mystery. New research published in the Journal of Lipid Research demonstrates that mice fed a high-fat, high-cholesterol diet that […]

 March 02, 2020
Murray Huff, PhD, in a lab with tangerines in the foreground

 March 02, 2020

Researchers at Western University are studying a molecule found in sweet oranges and tangerines called nobiletin, which they have shown to drastically reduce obesity in mice and reverse its negative side-effects.

But why it works remains a mystery.

New research published in the Journal of Lipid Research demonstrates that mice fed a high-fat, high-cholesterol diet that were also given nobiletin were noticeably leaner and had reduced levels of insulin resistance and blood fats compared to mice that were fed a high-fat, high-cholesterol diet alone.

“We went on to show that we can also intervene with nobiletin,” said Murray Huff, PhD, a Professor at Western’s Schulich School of Medicine & Dentistry who has been studying nobiletin’s effects for over a decade. “We‘ve shown that in mice that already have all the negative symptoms of obesity, we can use nobelitin to reverse those symptoms, and even start to regress plaque build-up in the arteries, known as atherosclerosis.”

But Huff says he and his team at Robarts Research Institute at Western still haven’t been able to pinpoint exactly how nobiletin works. The researchers hypothesized that the molecule was likely acting on the pathway that regulates how fat is handled in the body. Called AMP Kinase, this regulator turns on the machinery in the body that burns fats to create energy, and it also blocks the manufacture of fats.

However, when the researchers studied nobiletin’s effects on mice that had been genetically modified to remove AMP Kinase, the effects were the same.

“This result told us that nobiletin is not acting on AMP Kinase, and is bypassing this major regulator of how fat is used in the body,” said Huff. “What it still leaves us with is the question – how is nobiletin doing this?”

Huff says while the mystery remains, this result is still clinically important because it shows that nobiletin won’t interfere with other drugs that act on the AMP Kinase system. He says current therapeutics for diabetes like metformin for example, work through this pathway.

The next step is to move these studies into humans to determine if nobiletin has the same positive metabolic effects in human trials.

“Obesity and its resulting metabolic syndromes are a huge burden to our health care system, and we have very few interventions that have been shown to work effectively,” said Huff. “We need to continue this emphasis on the discovery of new therapeutics.”

**Please note, this was edited on March 4, 2020 for clarity**

MEDIA CONTACT: Crystal Mackay, Media Relations Officer, Schulich School of Medicine & Dentistry, Western University, t. 519.661.2111 ext. 80387, c. 519.933.5944, crystal.mackay@schulich.uwo.ca @CrystalMackay

ABOUT WESTERN
Western University delivers an academic experience second to none. Since 1878, The Western Experience has combined academic excellence with life-long opportunities for intellectual, social and cultural growth in order to better serve our communities. Our research excellence expands knowledge and drives discovery with real-world application. Western attracts individuals with a broad worldview, seeking to study, influence and lead in the international community.

ABOUT THE SCHULICH SCHOOL OF MEDICINE & DENTISTRY
The Schulich School of Medicine & Dentistry at Western University is one of Canada’s preeminent medical and dental schools. Established in 1881, it was one of the founding schools of Western University and is known for being the birthplace of family medicine in Canada. For more than 130 years, the School has demonstrated a commitment to academic excellence and a passion for scientific discovery.

 

 

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