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Scientists identify promising immunotherapy combination for pediatric brain cancer

May 18, 2020

LA JOLLA, CALIF. - May 18, 2020 - Scientists at , is expected to lead to a clinical trial to test the benefits of the treatment in patients. The findings also hold implications for other cancers that do not respond to immunotherapy.

"I've studied medulloblastoma for more than 20 years. I've seen many therapies that prolong survival in mice. But this is first time I have ever seen a therapy essentially melt the tumor away," says

One in four children does not survive medulloblastoma, and tumors with mutations in p53, a protein that stops the growth of tumors, are especially deadly. The standard treatments for the disease are surgery, whole brain and spine radiation, and intensive chemotherapy. Although these aggressive treatments can cure some patients, those who survive often suffer devastating long-term side effects, including intellectual disabilities, hormonal disorders and an increased risk of developing cancer later in life. Scientists have been striving to use immunotherapy, which harnesses an individual's immune system to destroy the cancer, as a safer and more effective treatment for medulloblastoma.

"We are very encouraged by these study results and hope to initiate a Phase 1 clinical trial as soon as possible," says Sabine Mueller, M.D., Ph.D., co-founder of the Pediatric Pacific Neuro-Oncology Consortium (PNOC), a network of children's hospitals that aims to advance personalized therapies to children and young adults with brain tumors. "Undergoing chemotherapy and radiation is difficult for adults, and even more so for children. Treatment advances cannot come soon enough for these vulnerable pediatric patients."

Removing the tumor's invisibility cloak

In the study, Wechsler-Reya and his colleagues conducted a series of experiments investigating why immune responses differed between two different mouse models of medulloblastoma--one with p53 mutations and one without. Often called the "guardian of the genome," p53 scans DNA for errors and is the most frequently mutated gene in human cancer.

These experiments revealed that tumors lacking p53 do not display an important protein--called the major histocompatibility complex I (MHC-I)--on their surface. MHC-I allows tumors to be recognized and killed by the immune system; without it, a tumor is invisible to the immune system and continues to grow uninterrupted.

The scientists found that low doses of TNF increased expression of MHC-I on p53-mutant tumors--removing their "invisibility cloak" and allowing them to be detected and destroyed by the immune system. Importantly, when mice with p53-mutant tumors received both TNF and a type of immunotherapy called an immune checkpoint inhibitor, the tumor completely disappeared.

"This work suggests that adding TNF to immunotherapy could benefit medulloblastoma patients with tumors lacking p53," says Alexandra Garancher, Ph.D., first author of the study and a postdoctoral associate in the Wechsler-Reya lab. "If p53 is missing, low doses of TNF may boost MHC-I to the levels needed for immunotherapy to work."

The scientists also tested the combination treatment in a mouse model of diffuse intrinsic pontine glioma (DIPG), a deadly pediatric brain tumor that has a nearly 100% fatality rate. After receiving the treatment, approximately half of these mice survived the cancer.

"Our findings suggest that some cancers may not respond to immunotherapy because the tumors don't have sufficient MHC-I levels to trigger an effective immune response," says Wechsler-Reya. "Our hope is that in the near term, combining immunotherapy with TNF will increase the effectiveness of immunotherapy for children who are battling brain cancer."
-end-
The study's DOI is 10.1038/s41593-020-0628-4.

Research reported in this press release was supported by the National Institutes of Health (NIH) (R01CA148699, R01CA159859, 2R01CA159859-06, P30CA30199, P01CA177322, K22CDACA229613, R01AI048073), the Pediatric Brain Tumour Foundation, The Terry Fox Research Institute, The Canadian Institutes of Health Research, The Cure Search Foundation, b.r.a.i.n. child, Meagan's Walk, SWIFTY Foundation, The Brain Tumour Charity, Genome Canada, Genome BC, Genome Quebec, the Ontario Research Fund, Worldwide Cancer Research, V-Foundation for Cancer Research, the Ontario Institute for Cancer Research, Canadian Cancer Society, Cancer Research UK Brain Tumour Award, Stand Up To Cancer (SU2C), St. Baldrick's Foundation (SU2C-AACR-DT1113), SU2C Canada Cancer Stem Cell Dream Team Research Funding (SU2C-AACR-DT-19-15), Forschungsgemeinschaft (324392634-TRR221, WA 1025/31-1), the V Foundation, the Pediatric Brain Tumor Foundation, Accelerate Brain Cancer Cure, Alex's Lemonade Stand Foundation, William's Superhero Fund, the McDowell Charity Trust, Madox's Warriors, Cristian Rivera Foundation, Fly a kite Foundation, and the California Institute for Regenerative Medicine.

About Sanford Burnham Prebys Medical Research Institute

Sanford Burnham Prebys is a preeminent, independent biomedical research institute dedicated to understanding human biology and disease and advancing scientific discoveries to profoundly impact human health. For more than 40 years, our research has produced breakthroughs in cancer, neuroscience, immunology and children's diseases, and is anchored by our NCI-designated Cancer Center and advanced drug discovery capabilities. For more information, visit us at

Sanford Burnham Prebys Medical Discovery Institute

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