ELDERLY MUTATIONS TIED TO LEUKEMIA COMMON
At least 2 percent of
people over age 40 and 5 percent of people over 70 have mutations linked to
leukemia and lymphoma in their blood cells, according to new research at
Washington University School of Medicine in St. Louis.
Mutations in the
body's cells randomly accumulate as part of the aging process, and most are
harmless. For some people, genetic changes in blood cells can develop in genes
that play roles in initiating leukemia and lymphoma even though such people
don't have the blood cancers, the scientists report Oct. 19 in Nature
Medicine.
The findings, based on
blood samples from nearly 3,000 patients, don't mean that people with these
genetic mutations are destined to develop a blood cancer. In fact, the vast
majority of them won't as the incidence of blood cancers such as leukemia or lymphoma
is less than 0.1 percent among the elderly.
"But it's quite
striking how many people over age 70 have these mutations," said senior
author Li Ding, PhD, of The Genome Institute at Washington University.
"The power of this study lies in the large number of people we screened.
We don't yet know whether having one of these mutations causes a higher than
normal risk of developing blood cancers. More research would be required to
better understand that risk."
The researchers
analyzed blood samples from people enrolled in The Cancer Genome Atlas project,
a massive endeavor funded by the National Cancer Institute and the National
Human Genome Research Institute at the National Institutes of Health (NIH). The
effort involves cataloguing the genetic errors involved in more than 20 types
of cancers.
The patients whose
blood was analyzed for the current study had been diagnosed with cancer but
were not known to have leukemia, lymphoma or a blood disease. They ranged in
age from 10 to 90 at the time of diagnosis and had donated blood and tumor
samples before starting cancer treatment. Therefore, any mutations identified
by the researchers would not have been associated with chemotherapy or
radiation therapy, which can damage cells' DNA.
The researchers,
including Genome Institute scientists Mingchao Xie, Charles Lu, PhD, and Jiayin
Wang, PhD, zeroed in on mutations that were present in the blood but not in
tumor samples from the same patients. Such genetic changes in the blood would
be associated with changes in stem cells that develop into blood cells, but not
to the same patient's cancer.
They looked closely at
556 known cancer genes. In 341 patients ages 40-49, fewer than 1 percent had
mutations in 19 leukemia- or lymphoma-related genes. But among 475 people ages
70-79, over 5 percent did. And over 6 percent of the 132 people ages 80-89 had
mutations in these genes.
The researchers noted
that nine of the 19 genes were mutated repeatedly, an indicator that the
changes drive or initiate the expansion of blood cells with these mutations.
This expansion of
cells is clearly not leukemia or lymphoma, the researchers said. It may be a
precursor to blood cancers in a small subset of patients, but the study was not
designed to predict the future risk of developing these diseases.
The current study
likely underestimates the percentage of people with mutations in leukemia and
lymphoma genes because the researchers only were able to identify small
mutations, not large structural variations or the insertions and deletions of
chunks of genetic material.
Still, it would be
premature for people to undergo genetic testing to see if they have mutations
linked to leukemia and lymphoma as a means to predict their risk of blood
cancers.
"We would not
want anyone to think they should be screened for these mutations to understand
their risk of leukemia or lymphoma," said co-author and leukemia scientist
Timothy Ley, MD, the Lewis T. and Rosalind B. Apple Professor of Oncology.
"The ability to understand how mutations in these genes increase a person's
risk of blood cancers is a long way off, and genetic testing would be of no
benefit at this time."
If the researchers
repeated the study in tens of thousands of patients and tracked the development
of mutations over time, they could more accurately identify the risk of
individual mutations or combinations of mutations for the development of
leukemia and lymphoma. Such a study is intriguing to contemplate but would take
years to complete and require considerable financial resources, Ding said.
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