Identifying the mechanism in obesity’s link to colon cancer
In a recent new finding, doctoral candidates Wiecang Wang and Jianan Zhang, with their advisor Guodong Zhang in the department of food science at the University of Massachusetts Amherst, report that they have identified a new molecular mechanism to explain the link between obesity and increased risk of colon inflammation, which is a major risk factor in colorectal cancer.
The research team, which includes scientists at the University of California Davis, suggest for the first time that inhibiting an enzyme known as soluble epoxide hydrolase, sHE, may abolish this risk of obesity-induced colonic inflammation, say Zhang and colleagues. They note that a few sEH inhibitors, known to be a factor in other inflammatory diseases but not colon cancer before, are now in human clinical trials.
Senior author Zhang says, “In our mouse studies, obesity-induced colon inflammation can be eliminated by inhibiting sEH. So we discovered a new therapeutic target for a very important disease.”
Because sEH inhibitors are already being explored as a treatment for other diseases such as pain and hypertension, he notes, medical researchers using it would not need to reinvent a whole new approach. “We hope it will be a promising treatment in humans, but mice and humans are very different,” Zhang cautions. Details appear in an early online issue of Proceedings of the National Academy of Sciences.
As the authors point out, more than one-third, or 34.9 percent, of adults in the United States are obese, and obese individuals have a 30-60 percent higher risk of developing colorectal cancer, the third most common and the second leading cause of cancer-related death in the nation. Colon inflammation is an early warning sign of this cancer, and the new research shows why and how obesity increases risk.
In this study, the investigators used a liquid chromatography tandem mass spectrometry (LC-MS/MS)-based metabolomics approach to analyze the profiles of signaling lipids in the colon of groups of lean and obese mice. This allowed them to identify new bioactive lipids which are deregulated in the colon tissues of obese mice.
“Metabolomics is a very powerful tool to find new biomarkers and pathways of human diseases,” says first author Wang. “We found that the concentrations of sEH-produced metabolic products are higher in colons of obese mice. This leads to our discovery that sEH is over-expressed in the colons of obese mice and it is involved in obesity-induced colonic inflammation.”
To validate their findings, the research team used three different approaches to investigate the roles of sEH in obesity-induced colonic inflammation. These included using two different sEH inhibitors in experiments as well as a knockout mouse genetically modified not to produce sEH. Results were similar in all cases, reports co-first author Jianan Zhang, no relation to her professor. “Blocking the enzyme prevents the mouse from developing colonic inflammation. Even in the mice on a high-fat diet, by inhibiting sEH you can completely block colon inflammation,” she says.
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