Newest cancer therapies multi-task to eliminate tumors

Some of the newest therapies in the war on cancer remove the brakes cancer puts on the immune system, Georgia Health Sciences University researchers report.

These immunotherapies, such as CTLA4, strengthen the immune system's attack on cancer by keeping apart two proteins that prevent key called from activating.

Research featured on the cover of the suggests that these therapies also keep tumors from benefitting from IDO, an enzyme used by and tumors alike to suppress the .

"This is an alternative way of avoiding the immune system brakes," said Dr. Andrew Mellor, Director of the GHSU Immunotherapy Center and the study's corresponding author. "These findings give us better insight into how cancer immunotherapy works so in the future we can better minimize the side effects and maximize the effect we want which is anti-tumor."

Mellor and Dr. David Munn, who leads the Cancer Immunotherapy Program in the GHSU and co-authored the study, led a research team that in 1998 identified IDO's role in preventing a mother's immune system from rejecting a fetus. They subsequently learned that tumors pirate the mechanism. The university has patented technologies to inhibit IDO, which are currently in clinical trials funded by the National Cancer Institute and corporate partners. "Tumors are really good at turning on IDO and after the cancer is found it becomes important to turn it off," Mellor said.

The study also provides new insight into cancer treatment vaccines that have worked well in the laboratory but are less successful in patients, Mellor said.

It suggests that the quantity of bacterial mimics, which get the attention of the immune system, is pivotal. Mellor and his colleagues showed in 2005 that the bacterial mimic CpG-ODNs can actually activate IDO. The new study confirmed that a lower dose avoided stimulating IDO while higher doses turned it on.

It also may help explain a common side effect: the immune system's attack on healthy as well as cancerous tissue.

IDO, or indoleomine 2,3-dioxyegenase, locally suppresses immune system action by degrading tryptophan, an amino acid essential to survival of T-cells, orchestrators of immune response. Along with tumors, infectious agents, such as HIV, may use this mechanism to escape the immune system. In addition to pursuing the potential of IDO inhibitors, GHSU researchers have been looking at how invoking IDO can protect transplanted organs or treat autoimmune diseases such as rheumatoid arthritis and type 1 diabetes, respectively.

Provided by Georgia Health Sciences University
Citation: Newest cancer therapies multi-task to eliminate tumors (2011, September 16) retrieved 19 July 2019 from https://medicalxpress.com/news/2011-09-cancer-therapies-multi-task-tumors.html
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