This happens to be a neat trick. It allows a harmless bacteria to become a cancer killer upon reaching the cell. This is a very effective approach. Boosting the immune system can then put further pressure on the cancer cells hopefully without selecting for more perfect cancer cells.
This approach can be applied to a range of harmless biolgical agents as well to provide a large arsenal.
This allows cycling through agents to reduce the cancer for a long time.
Modified Salmonella eats away at cancer, without a side order of food poisoning
http://www.gizmag.com/salmonella-cancer/37002/
A genetically modified Salmonella strain has been shown to kill off cancer cells without the nasty side effects (Photo: Shutterstock)
Though generally a bacteria we'd associate with a severe bout of
food poisoning, previous research has suggested that Salmonella needn't
always bring bad news and stomach cramps.
Certain strains have been
shown to kill off cancer cells, but to use them as a form of treatment
for humans without inducing any nasty side effects has so far proven
difficult. But now, researchers have developed genetically modified
salmonella that turns toxic only after it enters a tumor.
A team of researchers from Germany's Helmholtz Center for Infection
Research and Arizona State University worked with a strain known as Salmonella enterica
Serovar Typhimurium. This strain has been demonstrated to colonize
tumors and attack the cancer cells. It was the group's thinking that
altering part of the bacteria's outer membrane called the
lipopolysaccharide structure (LPS) could serve to improve its safety.
This is because LPS is one of the primary causes for sepsis, a condition
that sees inflammation spread throughout the body that can lead to
organ failure and death.
Through genetic engineering, the scientists were able to remove genes
integral to the synthesis of the LPS. They then tested variants of the
newly modified Salmonella strains both in the lab with human cancer
cells and in mice with tumors. They discovered that one in particular
was effective at destroying cancer cells and shrinking the tumors when
injected into the mice, without the typical negative impacts on the
surrounding healthy cells.
This ability to transform from a harmless bacteria to a ruthless
destroyer of all things cancerous when it arrives at the tumor is
attributed to how Salmonella develops in different environments. In
regular cells, Salmonella will divide only once or twice each day, while
inside a tumor it divides hourly.
"This transition from a benign, invasive Salmonella that doesn't hurt
normal cells to the toxic type occurs very rapidly (time wise) in the
tumor due to the very rapid growth and cell division that occurs when
Salmonella enters a tumor," says Dr. Roy Curtiss, one of the study's
researchers and Professor of Microbiology at Arizona State University.
Curtiss says that when the technique finds it way into human trials,
it will most likely be used in conjunction with chemotherapy and
radiation therapy.
The research was published in the journal American Society for Microbiology.
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