Combination of Natural Compounds Better Than Drugs at Fighting Prostate Cancer, Research Finds
News Jun 20, 2017 | Original Story from The University of Texas at Austin
When you dine on curry and baked apples, enjoy the fact that you are eating something that could play a role starving — or even preventing — cancer.
New research from The University of Texas at Austin identifies several natural compounds found in food, including turmeric, apple peels and red grapes, as key ingredients that could thwart the growth of prostate cancer, the most common cancer afflicting U.S. men and a key area of focus during Men's Health Month, which public health advocates celebrate in June.
Published online this week in Precision Oncology, the new paper uses a novel analytical approach to screen numerous plant-based chemicals instead of testing a single agent as many studies do, discovering specific combinations that shrink prostate cancer tumors.
"After screening a natural compound library, we developed an unbiased look at combinations of nutrients that have a better effect on prostate cancer than existing drugs," says corresponding author Stefano Tiziani, assistant professor in the Department of Nutritional Sciences and Dell Pediatric Research Institute at UT Austin. "The beauty of this study is that we were able to inhibit tumor growth in mice without toxicity."
During the past decade, some cancer research has highlighted the potential therapies found in plants, including chemicals found in foods such as turmeric, apple peels and green tea. These compounds minimize one of the risk factors for cancer, inflammation within the body. People who have chronic inflammation because of chronic infection, autoimmune disease or conditions such as obesity have a higher cancer risk because of damage to normal cells.
The researchers first tested 142 natural compounds on mouse and human cell lines to see which inhibited prostate cancer cell growth when administered alone or in combination with another nutrient. The most promising active ingredients were then tested on model animals: ursolic acid, a waxy natural chemical found in apple peels and rosemary; curcumin, the bright yellow plant compound in turmeric; and resveratrol, a natural compound common to red grapes or berries.
"These nutrients have potential anti-cancer properties and are readily available," says Tiziani. "We only need to increase concentration beyond levels found in a healthy diet for an effect on prostate cancer cells."
The new research paper also demonstrates how the plant-based chemicals work together. Combining ursolic acid with either curcumin or resveratrol prevents cancer cells from gobbling something that they need to grow, glutamine. This is a neat solution: blocking the uptake of a nutrient needed by prostate cancer cells with nutrients that are commonly in the human diet.
"For some time, scientists have suspected that increased consumption of natural compounds may play a role in starving cancer cells and potentially preventing cancer formation," says senior author John DiGiovanni, professor in the College of Pharmacy at UT Austin. "Our study illustrates that finding the most effective combination of those bioactive agents greatly increases the effectiveness."
Lodi, A., Saha, A., Lu, X., Wang, B., Sentandreu, E., Collins, M., Kolonin, M.G., DiGiovanni, J. and Tiziani, S., 2017. Combinatorial treatment with natural compounds in prostate cancer inhibits prostate tumor growth and leads to key modulations of cancer cell metabolism. npj Precision Oncology, 1(1), p.18.
This article has been republished from materials provided by The University of Texas at Austin. Note: material may have been edited for length and content. For further information, please contact the cited source.
Researchers Fine-Tune Computer-Assisted Drug Repositioning Process to Treat Rare DiseasesNews
Researchers at the LSU Computational Systems Biology group have developed a sophisticated and systematic way to identify existing drugs that can be repositioned to treat a rare disease or condition.READ MORE
Study Extends Potential of Personalized Cell-based ImmunotherapiesNews
New methods developed for the study could be applied to devise personalized, cell-based immunotherapies for epithelial ovarian cancer or other types of tumorsREAD MORE
Improved Capture of Free-Floating Cancer Cells, Cast-Off from TumorsNews
Researchers at the University of North Carolina Lineberger Comprehensive Cancer Center and University of Wisconsin-Madison have demonstrated improved methods of capturing free-floating cancer cells that are cast-off from tumors, and circulating in the blood.READ MORE