Researchers identify gene variant that raises risk for colorectal cancer from eating processed meat
October 24, 2013
Discovery sets first step towards identification of genetic variants linked to carcinogenic risk from diet and nutrition
FOR IMMEDIATE RELEASE — October 24, 2013 — A common genetic variant that affects 1 in 3 people significantly increases the risk of colorectal cancer from the consumption of red meat and processed meat, according to a study presented today at the annual American Society of Human Genetics 2013 meeting, the largest gathering of human geneticists in the world.
In addition to identifying a gene that raises risk for colorectal cancer from eating red or processed meat, the study — the first to identify the interactions of genes and diet on a genome-wide scale — also reveals another specific genetic variation that appears to modify whether eating more vegetables, fruits and fiber actually lowers your colorectal cancer risk.
“Diet is a modifiable risk factor for colorectal cancer. Our study is the first to understand whether some individuals are at higher or lower risk based on their genomic profile. This information can help us better understand the biology and maybe in the future lead to targeted prevention strategies,” said lead author Jane Figueiredo, Ph.D., Assistant Professor of Preventive Medicine at the Keck School of Medicine of USC.
“But we are not saying that if you don’t have the genetic variant that you should eat all the red meat you’d like,” Figueiredo added. “People with the genetic variant allele have an even higher increased risk of colorectal cancer if they consume high levels of processed meat, but the baseline risk associated with meat is already pretty bad.”
We’ve all heard reports about how certain foods may lower or raise the risk for certain diseases, such as cancer. But how our personal genetic variations modify the effects of diet on disease has not yet been thoroughly investigated, said senior author Ulrike Peters, Ph.D., M.P.H, of the Fred Hutchinson Cancer Research Center’s Public Health Sciences Division.
The researchers systematically searched the more than 2.7 million genetic sequences for interactions with consumption of red and processed meat. The study looked at 9,287 patients with colorectal cancer and a control group of 9,117 individuals without cancer.
The risk of colorectal cancer associated with processed meat was significantly higher among people with the genetic variant rs4143094, the study shows. This variant is located on the same chromosome 10 region that includes GATA3, a transcription factor gene previously linked to several forms of cancer. The transcription factor encoded by this gene normally plays a role in the immune system, but carries this genetic variant in about 36 percent of the population.
The researchers speculate that the digestion of processed meat may promote an immunological or inflammatory response that may trigger tumor development. The GATA3 transcription factor normally would help suppress the immunological or inflammatory response. However, if the GATA3 gene region contains a genetic variant, it may encode a dysregulated transcription factor that impacts its ability to suppress the response.
But other genetic variants may be beneficial: On chromosome 8, another statistically significant diet-gene interaction was found in variant rs1269486. For people with this variant, eating your fruits and veggies may be even better for you when it comes to colorectal cancer risk, the research shows.
The study is part of an ongoing collaboration among multiple institutions worldwide, the international NIH-funded Genetics and Epidemiology of Colorectal Cancer Consortium (GECCO).
“GECCO aims to continue to discover additional colorectal cancer-related variants by investigating how genetic variants are modified by other environmental and lifestyle risk factors, including biomarkers as well as how they influence patient treatment response and survival,” Peters said, emphasizing how much further research is required to uncover the specific mechanisms by which genes modulate the intake of certain foods on colorectal cancer risk.
Colorectal cancer is a multi-factorial disease attributed to lifestyle, environmental and genetic causes, and the third leading cause of cancer death in both men and women across most racial groups. Over 30 genetic susceptibility alleles for colorectal cancer have been pinpointed throughout the genome. They include rare variants that have a strong impact on risk and common variants that are low risk.
“Colorectal cancer is a disease that is strongly influenced by certain types of diets,” Figueiredo said. “We’re showing the biological underpinnings of these correlations, and understand whether genetic variation may make some people more or less susceptible to certain carcinogens in food, which may have future important implications for prevention and population health.”
Li Hsu, Ph.D., of the Fred Hutchinson Cancer Research Center was the study’s lead biostatistician. Major funders include the National Cancer Institute of the National Institutes of Health.
To request a copy of the study, “Genome-wide analyses highlight gene interaction with processed meat and vegetable intake for colorectal cancer risk,” contact Cathy Yarbrough at email@example.com. To request an interview with a researcher, contact Suzanne Wu at firstname.lastname@example.org.
About Keck Medicine of USC
Keck Medicine of USC is the University of Southern California’s medical enterprise, one of only two university-owned academic medical centers in the Los Angeles area. Encompassing academic, research and clinical entities, it consists of the Keck School of Medicine of USC, one of the top medical schools in Southern California; the renowned USC Norris Comprehensive Cancer Center, one of the first comprehensive cancer centers established in the United States; the USC Care faculty practice; the Keck Medical Center of USC, which includes two acute care hospitals: 411-bed Keck Hospital of USC and 60-bed USC Norris Cancer Hospital; and USC Verdugo Hills Hospital, a 158-bed community hospital. It also includes outpatient facilities in Beverly Hills, downtown Los Angeles, La Cañada Flintridge, Pasadena, and the USC University Park campus. USC faculty physicians and Keck School of Medicine departments also have practices throughout Los Angeles, Orange and Riverside counties.
The American Society of Human Genetics is the primary professional membership organization for nearly 8,000 human genetics specialists worldwide. The ASHG Annual Meeting is the world’s largest gathering of human genetics professionals and a forum for renowned experts in the field. For more information about ASHG, visit: http://www.ashg.org.