An international team led by researchers at the University of Toronto has found a compound in ginger, called furanodienone (FDN), that selectively binds to and regulates a nuclear receptor involved in inflammatory bowel disease (IBD).
Through a screen to identify chemical components of ginger that bind to receptors associated with IBD, the team observed a strong interaction between FDN and the pregnane X receptor (PXR). FDN reduces inflammation in the colon by activating PXR’s ability to suppress the production of pro-inflammatory cytokines in the body. While researchers have been aware of FDN for decades, they had not determined its functions or targets in the body until now.
“We found that we could reduce inflammation in the colons of mice through oral injections of FDN,” said research associate Jiabao Liu. “Our discovery of FDN’s target nuclear receptor highlights the potential of complementary and integrative medicine for IBD treatment. We believe natural products may be able to regulate nuclear receptors with more precision than synthetic compounds, which could lead to alternative therapeutics that are cost-effective and widely accessible.”
The study was published recently in the journal Nature Communications.
IBD patients typically start to experience symptoms early in life; around 25% of patients are diagnosed before the age of 20. There is currently no cure for IBD, so patients must adhere to life-long treatments to manage their symptoms, including abdominal pain and diarrhoea, enduring significant psychological and economic consequences.
While patients with IBD have found some relief through changes to their diet and herbal supplements, it is not clear which chemical compounds in food and supplements are responsible for alleviating intestinal inflammation. With FDN now identified as a compound with potential to treat IBD, this specific component of ginger can be extracted to develop more effective therapies.
An additional benefit of FDN is that it can increase the production of tight junction proteins that repair damage to the gut lining caused by inflammation. The effects of FDN were demonstrated in the study to be restricted to the colon, preventing harmful side effects to other areas of the body.
Nuclear receptors serve as sensors within the body for a wide range of molecules, including those involved in metabolism and inflammation. PXR specifically plays a role in the metabolism of foreign substances, like dietary toxins and pharmaceuticals. Binding between FDN and PXR needs to be carefully regulated because over-activating the receptor can lead to an increase in the metabolism and potency of other drugs and signaling metabolites in the body.
FDN is a relatively small molecule that only fills a portion of the PXR binding pocket. The study shows that this allows for an additional compound to bind simultaneously, thereby increasing the overall strength of the bond and its anti-inflammatory effects in a controlled manner.
“The number of people diagnosed with IBD in both developed and developing countries is on the rise due to a shift towards diets that are more processed and are high in fat and sugar,” said Henry Krause, principal investigator on the study and professor of molecular genetics. “A natural product derived from ginger is a better option for treating IBD than current therapies because it does not suppress the immune system or affect liver function, which can lead to major side effects. FDN can form the basis of a treatment that is more effective while also being safer and cheaper.”
Source: University of Toronto
