EARLY SIGN OF PANCREATIC CANCER IDENTIFIED
Scientists at
Dana-Farber Cancer Institute, the Massachusetts Institute of Technology, and
other institutions have discovered a sign of the early development of
pancreatic cancer – an upsurge in certain amino acids that occurs before the
disease is diagnosed and symptoms appear. The research is being published
online today by the journal Nature Medicine.
Although the increase
isn’t large enough to be the basis of a new test for early detection of the
disease, the findings will help researchers better understand how pancreatic
cancer affects the rest of the body, particularly how it can trigger the sometimes
deadly muscle-wasting disease known as cachexia.
“Most people with
pancreatic ductal adenocarcinoma (PDAC) [by far the most common form of
cancreatic cancer] are diagnosed after the disease has reached an advanced
stage, and many die within a year of diagnosis,” said Brian Wolpin, MD, MPH, of
Dana-Farber, co-senior author of the new study with Matthew Vander Heiden, MD,
PhD, of MIT and Dana-Farber. “Detecting the disease earlier in its development
may improve our ability to treat it successfully. In this study, we asked
whether PDAC produces metabolic changes – changes in the way the body uses
energy and nutrients – that can be detected before the disease is diagnosed.”
The researchers
utilized blood samples collected years earlier from 1,500 people participating
in large health-tracking studies. They analyzed the samples for more than 100
different metabolites – substances produced by the metabolic process – and
compared the results from participants who had gone on to develop pancreatic
cancer and those who had not.
“We found that higher
levels of branched chain amino acids were present in people who went on to
develop pancreatic cancer compared to those who did not develop the disease,”
Wolpin said. (Branched chain amino acids are one family of amino acids, the
building blocks of proteins.) The amount of time that would elapse before those
individuals were diagnosed with pancreatic cancer ranged from two to 25 years,
although the highest risk was in the several years before diagnosis, the
researchers found.
“These findings led us
to hypothesize that the increase in branched chain amino acids is due to the
presence of an early pancreatic tumor,” Wolpin remarked. This theory was
confirmed in laboratory experiments performed by Vander Heiden’s group at the
Koch Institute for Integrative Cancer Research at MIT. Their experiments showed
that mice with newly formed pancreatic tumors had above-normal blood levels of
these amino acids.
The researchers found
the increase was due to a breakdown of muscle tissue, which caused branched
amino acids to be released into the bloodstream. This process is similar to
what occurs in patients with cancer cachexia. “What was surprising about our
results was that it appears the breakdown of muscle protein begins much earlier
in the disease process than previously appreciated,” noted Vander Heiden.
The findings provide
an important lead to scientists studying how pancreatic tumors interact with
patients’ normal tissues, the authors say. According to Vander Heiden, this
work provides a glimpse into how pancreatic cancer changes the way the rest of
the body handles nutrients. “This work has the potential to spur progress in
detecting pancreatic tumors earlier and identifying new treatment strategies
for those with the disease,” he remarks.
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