[Paleopsych] Scientists identify protein that controls cancer cells
Steve Hovland
shovland at mindspring.com
Wed Apr 13 13:53:32 UTC 2005
WINSTON-SALEM, N.C. - Scientists from Wake Forest University School of
Medicine have identified a protein that seems to control the malignant
features of brain tumor cells, suggesting a new treatment target for
anti-cancer drugs. The research is reported in the current issue of
Molecular Cancer Research.
"This protein seems to be important in how cells acquire malignant
characteristics and how they spread to healthy tissue," said Waldemar
Debinski, M.D., Ph.D., director of the Brain Tumor Center of Excellence at
Wake Forest University Baptist Medical Center. "It is very powerful and may
be an attractive target for anti-cancer therapy."
The protein is also involved in late-stage breast, skin, colon and thyroid
cancers, suggesting that a new treatment could apply to multiple cancers.
Debinski and colleagues identified the protein while studying
glioblastomas, the most common form of brain tumor. Glioblastomas are
considered the least curable of all human cancers. Like other tumors, gl
ioblastomas require their own blood supply in order to grow and spread. The
researchers' initial goal was to learn what controls this process.
But, when they measured levels of a protein that they thought might be
involved, they found only very low levels. Instead, they discovered that a
little-known protein - called Fra-1 - is present at large amounts in the
tumor cells.
"We were very surprised when we saw it for the first time," said Debinski.
"We had to learn more about Fra-1 because it is not a widely-studied
biological factor."
What they learned got them interested in doing further research with Fra-1.
For example, the protein is able to regulate a set of different genes.
Fra-1 is what is known as a transcription factor. It is one of many
proteins that "reads" the genetic material in cells. If effect,
transcription factors help control whether the instructions of genes are
carried out by the cells.
Debinski and colleagues conducted several experiments to learn more about
Fra-1's role in glioblastomas. They found that it makes the cancer cells
more elongated, which might make it easier for them to infiltrate normal
tissue. It also enables tumors to grow a blood supply. In addition, when
non-tumor forming cells were supplied with Fra-1, they began producing
tumors. On the other hand, when Fra-1 was eliminated from cells that were
already tumor-producing, they stopped forming tumors.
"It is a powerful biological factor," said Debinski.
In their studies, the researchers found that more than 50 different genes
seem to be affected by Fra-1, suggesting that its effects may be even
broader than this initial study showed.
"We believe it may be good target for anti-cancer therapy, but we need to
explore more," said Debinski.
The researchers suspect that Fra-1 works by partnering with other
molecules. If they find that it's difficult to control the actions of Fra-1
with drug therapy, one of these other molecules might be more susceptible
to treatment.
"Even if Fra-1 it not the ideal treatment target, I believe we're on the
right track to identify one," said Debinski.
The research was funded in part by the Brain Tumor Center of Excellence.
Debinski's research associate is Denise M. Gibo with Wake Forest Baptist,
who contributed in a major way to the work on Fra-1 in brain tumors.
"She was the first to spot that Fra-1 is elevated in glioblastomas ," said
Debinski.
The goal of the Brain Tumor Center of Excellence, which was formed in 2003,
is to find better treatments - and one day a cure - for malignant brain
tumors. In addition to its focus on research, the center provides a
comprehensive program for patient care, and is the first center in the
state to offer Gamma Knife stereotactic radiosurgery, a knifeless approach
to brain surgery and radiation therapy.
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