ANN ARBOR, Mich. -- Developing
effective treatments for lung cancer has been challenging, in part because so
many genetic mutations play a role in the disease.
By analyzing the DNA and RNA of
lung cancers, researchers at the University of Michigan Comprehensive Cancer
Center found that patients whose tumors contained a large number of gene
fusions had worse outcomes than patients with fewer gene fusions. Gene fusions
are a type of genetic anomaly found in cancers that occurs when genes get
rearranged and fuse together.
In addition, the researchers
identified several new genetic anomalies that occur in lung cancer, including
in patients with a history of smoking.
"Lung cancer is quite a
complex disease with many causes. Our deep sequencing analysis found new gene
fusions in lung cancers that were negative for the most commonly known fusions.
These new anomalies could potentially be targets for developing new
treatments," says study author Arul Chinnaiyan, M.D., Ph.D., director of
the Michigan Center for Translational Pathology and S.P. Hicks Professor of
Pathology at the University of Michigan Medical School.
The study looked at 753 lung
cancer samples that represented both smokers and non-smokers. The first 153
samples came from the University of Michigan and were combined with 521 samples
from a report published by The Cancer Genome Atlas.
The researchers found 6,348
unique fusions with an average of 13 fusions per tumor sample. Anomalies in two
gene pathways were most prevalent: the Hippo pathway, which has previously been
linked to some rare cancers, and NRG1, which has not previously been seen in
cancer.
The study appears in Nature
Communications.
Researchers know that three
common gene fusions - involving ALK, RET and ROS - play a role in about 5
percent of lung cancers, but primarily in non-smokers. The new anomalies were
found only in patients who did not have ALK, RET or ROS fusions.
"Our results indicate that
in the more genomically complex smoking-related lung cancers, gene fusion
events appear to be frequent," says study author David G. Beer, Ph.D., John
and Carla Klein Professor of Thoracic Surgery and professor of Radiation
Oncology at the University of Michigan Medical School and co-director of Cancer
Genetics at the U-M Comprehensive Cancer Center.
Drug companies are already
investigating drugs that could target the Hippo pathway and NRG1. The research
team suggests exploring these inhibitors as potential therapeutics in lung
cancer.
In addition, the finding that
the number of gene fusions was tied to prognosis suggests that a screen could
be developed to help doctors determine how aggressive a patient's tumor is
likely to be - and to tailor treatment accordingly.
The study identified many
different gene fusions that comprise the landscape of lung cancer, with most
occurring in only a small number of individual tumor samples. The Hippo pathway
fusions were present in 3 percent of patients and NRG1 fusions in 4 percent.
The researchers suggest expanding lung cancer subtypes based on these molecular
characteristics.
"We've previously had
success in targeting therapies against low-recurrence gene fusions. Large-scale
genome analyses like this allow us to identify more of the key drivers of each
patient's tumor so that we can match the most appropriate therapies,"
Chinnaiyan says.
Source:
EurekAlert
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