Stem Cells’ Repair Skills Might Be a Link
to Cancer
Behind the Cancer
Headlines®
Johns Hopkins
researchers say there is growing evidence that stem cells gone awry in their
efforts to repair tissue damage could help explain why long-term irritation,
such as from alcohol or heartburn, can create a breeding ground for certain
cancers.
At the heart of their
argument, outlined in the journal Nature, are two key chemical signals, called Hedgehog
and Wnt ("wint"), that are active in the stem cells that repair damaged
tissue. Recently and unexpectedly, the signals also have been found in certain
hard to treat cancers, supporting an old idea that some cancers may start from
normal stem cells that have somehow gone bad.
Over the last 10
years, researchers have found examples of these so-called cancer stem cells—the
cells within a tumor that are capable of regrowing
the tumor—in certain malignancies of the blood, breast and brain. In most
cases, however, it's not clear whether these cancer stem cells came from the
tissue's normal, primitive stem cells or from the tissue's mature cells.
"Cancers
associated with chronic irritation may be a good setting in which to determine
whether stem cells are the starting place of tumors," says Phil Beachy, Ph.D., professor of molecular biology and genetics
in Hopkins' Institute for Basic Biomedical Sciences and a Howard Hughes Medical
Institute investigator. "Successful therapy depends on targeting the cells
that drive cancer's growth and its spread, so we have to know which cells are
important."
Chronic irritation
damages tissues; Helicobacter infection in the stomach leads to ulcers, for
example, and chronic acid reflux (heartburn) erodes the lining of the
esophagus. That damage triggers a repair process that requires tissue-specific
stem cells to gather, multiply and eventually replace the damaged cells.
However, if recurring
irritation and damage prevent the repair's completion, those helpful stem
cells, in theory, could accumulate mutations that push their growth out of
control. Beachy and long-time collaborators and
co-authors Sunil Karhadkar, M.D., and David Berman,
M.D., Ph.D., suggest that chronic irritation might facilitate trapping of stem
cells in a state of perpetual activation, and subsequent genetic or other
changes in the cells may send them over the edge.
"Normal stem-cell
self-renewal is a tightly regulated process, so the question is how and whether
such regulation is circumvented in cancer," says Beachy.
Beachy says the place to start looking is the activity
and regulation of Hedgehog and Wnt, which are best
known for their roles in embryonic development, because recent studies show
they are key regulators of self-renewal in at least some of the body's normal
tissue stem cells and are active in numerous cancer types.
"If these stem
cells are the starting point of some cancers, multiple genetic and other
changes may be required to trap the stem cell during chronic irritation, and
perhaps many more changes to get the rapid growth of cancer," says Beachy. "We need to figure out what those changes
might be."
Hedgehog activity has
been found in certain cancers of the lung, brain, stomach, esophagus, skin,
pancreas, bladder, muscle and prostate. Similarly, Wnt
activity has been tied to certain cancers of the colon, liver, blood, bone and
lung.
In experiments at
SOURCES:
Nature,
Johns Hopkins Medical Institutions (http://www.jhmi.edu)