In a breakthrough that could boost the effectiveness of treatments against one of the most common and deadliest types of brain cancer, Israeli scientists have discovered that some immune cells that fight the cancer later “switch sides” to help protect the tumor.
Researchers at Tel Aviv University found that the “turncoat” white blood cells — neutrophils, known for their power in killing bacteria and fungi — battle hard against glioblastoma but then change their behavior and end up aiding its growth.
Glioblastoma, the most common type of brain cancer, is one of the most deadly, with the average life expectancy of patients between 12 to 15 months from the moment of detection.
“These immune cells are initially like an army that both kills tumor cells and also recruits other immune cells like t cells to help with the anti-cancer fight,” lead researcher Dr. Dinorah Friedmann-Morvinski told The Times of Israel. “Then in many cases, they start guarding the tumor and stopping other immune cells from getting to it — essentially protecting the tumor and letting it grow more.
“What is more, it secretes proteins that actually help the development of the tumor. So, in short, cells that are at first mobilized by the tumor itself, as anti-cancerous, become pro-cancerous. As a result, they aggravate the damage that the tumor itself creates,” she said.
The scientists made their breakthrough by observing genetically modified mice with glioblastoma. They then verified the hypothesis by analyzing sequencing data from hundreds of glioblastoma patients, which gave them a picture of how the cancer progressed in each patient.
The peer-reviewed research, published in the journal Cell Reports, is likely to pave the way for boosting the effectiveness of glioblastoma treatments, Friedmann-Morvinski predicted.
Friedmann-Morvinski said that now that it is known that the cells act as “double agents,” drugs can be developed that either will block their impact altogether, block them only once they stop attacking the tumor, or possibly even prevent their “defection” and cause them to continue targeting the tumor.
Her team, which includes PhD student Prerna Magod, is already working on developing such drugs.
“If we prove successful with this, we believe we’ll be able to keep these cells on the ‘right side,’” Friedmann-Morvinski said.
“This will increase the chances of immunotherapy working without the cells counteracting its impact. As such, our finding and our effort to identify drugs are significant.”
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