Scientists have suggested a way to improve treatments that
use viruses to attack cancer. It exploits the fact that cancer cells need a lot
of glucose and must metabolize it rapidly to survive.
Cutting down cancer cells' sugar
supply could make them more vulnerable to treatment.
Oncolytic viruses specifically target and enter cancer cells
and use the cells' machinery for their own multiplication and spread.
They destroy tumors from the inside without harming nearby healthy
tissue.
A recent study proposes that
restricting the cancer cells' supply of glucose, and altering their ability to
metabolize it, may strengthen the power of oncolytic viruses.
The research team, at the University of Oxford in the United
Kingdom, used mouse models and cells from ovarian, lung, and colon tumors in
order to demonstrate the effect.
Cancer Research UK sponsored the study, and a paper on the work features in the
journal Cancer Research.
"Our research in the lab," says lead study author
Arthur Dyer, who is currently a Ph.D. student in the university's oncology
department, "showed that restricting the amount of sugar available to
cancer cells makes these cancer-attacking oncolytic viruses work even
better."
Cancer cells need lots of glucose
All cells need glucose as a source of energy. Normal cells
use tiny internal "powerhouses" called mitochondria to convert
glucose into units of chemical energy.
However, to meet their higher demand for energy, cancer
cells have a faster process for
metabolizing glucose that does not involve mitochondria.
This is called the Warburg effect, after the scientist Otto
Warburg, who observed it over 50 years ago.
Exploiting this uniqueness in
cancer cells could open fruitful avenues for research into new treatments.
It may be possible, for instance, to develop drugs that
target and disable glucose metabolism in cancer cells without stopping healthy
cells from making energy. Trials of experimental drugs that aim to do this are
already under way.
One of the advantages that oncolytic viruses
have over drugs is that once they are inside the cell their dose increases with
time, whereas with drugs it decreases.
Viruses 'more effective' around
less glucose
When scientists store and grow cells in the laboratory, they
give them lots of glucose. In the human body, however, the cell environment is
much less rich in glucose. Also, due to poor circulation, tumors typically have
even lower levels of glucose.
In their work with oncolytic viruses, Dyer and his team
decided to alter the laboratory conditions to better match those of real life.
They reduced the glucose levels.
They found that the oncolytic
viruses were much more effective at attacking cancer cells when there was less
glucose around. The viruses replicated faster under the new conditions.
They suggest that this finding could also improve laboratory
testing of candidate drugs.
Further investigation revealed that adding a drug that
hampers the cancer cells' glucose metabolism strengthened the viruses' ability
to kill cancer cells even further.
Plans are currently under way to test the
"glucose-limiting" approach in clinical trials to find out whether it
could be effective in human patients.
Reducing dietary sugar not the
same
The scientists are keen to point out that reducing sugar in
the diet would not lead to the anticancer effects that they showed in the
study.
There is no proof that starving the body of sugar lowers a
person's risk of developing cancer or that it improves the chances of survival
should they be diagnosed with the disease.
There is an indirect link between reduced dietary sugar and
lower cancer risk that comes through tackling obesity.
High intakes of dietary sugar raise the risk of obesity,
which, in turn, raises the risk of cancer.
"A lot of people," says senior study author
Leonard W. Seymour, a professor of gene therapies in the university's oncology
department, "think that carbohydrates are bad, but that's not the case — we need
them, and cutting out sugar won't cure cancer."
"Because cancer gobbles up glucose so quickly, the
cells are very vulnerable to attack from a drug that targets the sugar pathway.
The same effect cannot be achieved by eliminating sugar from your diet."
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