MD
Anderson study also finds individuals with certain genetic variations more
vulnerable to dietary risk
Newswise, November 9, 2015 —
Diets high in meat may lead to an increased risk of developing renal cell
carcinoma (RCC) through intake of carcinogenic compounds created by certain
cooking techniques, such as barbecuing and pan-frying. As part of a new study
from The University of Texas MD Anderson Cancer Center,
published online this week in the journal CANCER, researchers
also discovered that individuals with specific genetic mutations are more
susceptible to the harmful compounds created when cooking at high temperatures.
Renal cell carcinoma, the most
common form of kidney cancer, is expected to be diagnosed in over 60,000 new
patients this year and claim approximately 14,000 lives, according to the American Cancer Society.
The incidence of RCC has been rising for several decades, and many suggest that
a Western diet is partially, to blame.
One of the proposed culprits of
a Western diet is higher-than-average meat consumption, which has been linked
to increased cancer risk. However, it has not always been clear why eating more
meat elevates cancer risk, explained Stephanie Melkonian, Ph.D., postdoctoral
fellow, Epidemiology and
lead author of the study.
A possible mechanism could be
ingestion of meat-cooking mutagens, harmful compounds created when the meat is
cooked in certain way. Cooking meat at high temperatures or over an open flame,
such as when barbecuing or pan-frying, is known to result in the formation of
carcinogens, including 2-amino-1-methyl-6-phenyl-imidazo(4,5-b) pyridine (PhIP)
and amino-3,8-dimethylimidazo(4,5-f) quinoxaline (MeIQx).
The kidney is a biochemically
active organ responsible for filtering many harmful toxins from the body, and
therefore it make sense to investigate the effects of dietary intake, including
carcinogens, on kidney cancer risk, said Melkonian.
To better characterize factors
contributing to kidney cancer risk, the researchers surveyed the eating
patterns and collected genetic information from 659 MD Anderson patients newly
diagnosed with RCC and 699 healthy subjects recruited from the community. Based
on survey responses, the researchers estimated meat consumption and exposure to
meat-cooking mutagens with the help of a National Cancer Institute database.
“We found elevated RCC risk
associated with both meat intake and meat-cooking mutagens, suggesting
independent effect of meat-cooking mutagens on RCC risk,” said Xifeng Wu, M.D., Ph.D, professor, Epidemiology and
senior author of the study.
Specifically, the results show
that kidney cancer patients consumed more red and white meat compared to
healthy individuals. Additionally, the researchers identified a 54 percent
increased risk associated with PhIP intake and a nearly twofold increase associated
with MeIQx intake. This is the first study to identify an association between
kidney cancer risk and dietary MeIQx.
The results suggest that
cooking method is an important factor contributing to the elevated RCC risk
associated with consuming more meat, as both red and white meat resulted in
increased risk, explained Wu.
This study was also the first
to investigate connections between genetic risk factors and intake of
meat-cooking mutagens for RCC. “By analyzing genes known to be associated with
RCC risk, we found that high intake of these carcinogens may be particularly
meaningful for a certain subgroup of the population,” said Melkonian.
Individuals with variations in
the gene, ITPR2, were more vulnerable to the effects of consuming PhIP. As this
gene has previously been associated with kidney cancer and obesity risk, the
results suggest this association may be partially explained by exposure to
meat-cooking mutagens.
Future experiments will seek to
clarify the mechanisms linking mutagen intake and genetic susceptibility.
The researchers cannot make
specific recommendations regarding acceptable amounts of meat intake or
exposure to meat-cooking mutagens, based on the current study. Exposures and
consumption were analyzed on a relative, rather than absolute scale, and future
studies will be needed to determine appropriate dietary intake.
“Our findings support reducing
consumption of meat, especially meat cooked at high temperatures or over an
open flame as a public health intervention to reduce RCC risk and burden,” said
Wu.
The researchers do not suggest
that individuals should remove meats completely from their diets, but rather
consume it in moderation, as part of a well-balanced diet, complete with fruits
and vegetables. When grilling or pan-frying meat, try to avoid charring it as
much as possible, suggest the researchers.
In addition to Melkonian and
Wu, other authors on the all MD Anderson study include: Carrie R. Daniel,
Ph.D., and Yuanqing Ye, Ph.D., both of Epidemiology; Nizar M. Tannir, M.D., Genitourinary
Medical Oncology; and Jose A. Karam, M.D., Surena F. Matin, M.D., and
Christopher G. Wood, M.D., all of Urology.
The study was funded by grants
from the National Institutes of Health (R01 CA170298), Center for Translational
and Public Health Genomics, Duncan Family Institute for Cancer Prevention, The
University of Texas MD Anderson Cancer Center, and the NCI R25T Postdoctoral
Fellowship in Cancer Prevention.
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