Newswise — Scientists at Sanford Burnham Prebys Medical Discovery Institute, University of California San Diego School of Medicine and Hopp Children’s Cancer Center Heidelberg (KiTZ) have demonstrated that personalized drug screens can be used to identify new therapeutic candidates for medulloblastoma, the most common malignant brain cancer in children. The approach measures the effectiveness of therapeutics using tumor cells obtained from a biopsy and can be performed in a few days—making it one of the quickest sources of information used in clinical decision-making. Based on this proof-of-concept study, which was published in Cancer Research, a clinical trial using the approach is now planned.

“Our findings show that personalized drug screens can help us move away from a one-size-fits-all approach to treating medulloblastoma patients,” says Robert Wechsler-Reya, Ph.D., corresponding author of the study, professor and director of the Tumor Initiation and Maintenance Program at Sanford Burnham Prebys, and program director of the Joseph Clayes III Research Center for Neuro-Oncology and Genomics at the Rady Children’s Institute for Genomic Medicine. “We have shown that we can identify therapies that cannot be predicted using other methods, and that the results can be used in clinical decision-making to improve outcomes for patients. For children diagnosed with medulloblastoma and their parents, better treatments can’t arrive fast enough.”

Efforts to find personalized treatments for medulloblastoma, which comprises four distinct subgroups—WNT, Sonic hedgehog (SHH), Group 3 and Group 4—have not been successful to date. Most patients still receive the same treatments—brain surgery to remove the tumor followed by radiation and chemotherapy—in spite of the different molecular characteristics of the tumors. As a result, one-third of children succumb to the cancer; and the children who do survive often have severe, lifelong side effects from the treatment, including cognitive impairment and a greater likelihood of developing cancer again.

“Precision medicine has revolutionized the treatment of certain cancers. Now, we hope that personalized drug screens will expand these benefits to children with brain cancer,” says John Crawford, M.D., a co-author of the study and director of the Neuro-Oncology Program at Rady Children’s Hospital-San Diego. “Personalized drug screens allow us to tailor therapy to each patient’s tumor, potentially saving the lives of more children and protecting others from the devastating long-term side effects of receiving chemotherapy and radiation at such a young age.”

Expanding the “medicine cabinet” for medulloblastoma

In the study, the scientists initially screened medulloblastoma tumors from patient-derived xenografts (PDX), models created by transplanting a patient’s brain tumor into mice, against a drug library containing nearly 5,000 compounds. The screen identified several drugs that halted the growth of cells from Group 3 medulloblastoma, the deadliest form of the disease; and one of these drugs, actinomycin D, extended the survival of mice harboring the corresponding PDX model.

“We are very excited that this screen revealed a drug that may be effective against Group 3 medulloblastoma, which is the most aggressive subtype,” says Jessica Rusert, Ph.D., lead author of the study and postdoctoral researcher in the Wechsler-Reya lab. “Actinomycin D has been used since the 1950s to treat other pediatric cancers, which means we have extensive information about its safety in children, and thus it could be moved relatively quickly into human testing.”

Actinomycin D also appeared to work better than some of the standard-of-care chemotherapies, offering a glimmer of hope that it might be able to replace the harsh treatment regimen that leaves some children with serious long-term side effects.

A leap from lab to clinic

To confirm that this approach could be used in the real world, the scientists completed a “test run” using a brain tumor removed from an 8-year-old boy newly diagnosed with metastatic medulloblastoma. A personalized drug screen identified several drugs that may work for his tumor type, and the results were reviewed by a molecular tumor board—a panel of physicians and scientists who work together to discuss treatment options. Although per protocol, the child continued with standard-of-care treatment, the results showed that a personalized treatment plan could have been created in time to guide care decisions.

“We want to move toward a future where a doctor will say, ‘You have medulloblastoma; now here is your specific treatment plan,’” says Wechsler-Reya. “Our study suggests that it can be done. Now we need to demonstrate that the method works in a clinical setting.”

Science takes a village

The co-senior authors of the study are Wechsler-Reya of Sanford Burnham Prebys; Marcel Kool of the Hopp Children’s Cancer Center in Heidelberg, Germany; and Jill P. Mesirov of UC San Diego School of Medicine. The co-first authors are Jessica M. Rusert of Sanford Burnham Prebys; Edwin F. Juarez of UC San Diego School of Medicine; and Sebastian Brabetz of Hopp Children’s Cancer Center. Additional study authors include James Jensen and Pablo Tamayo of UC San Diego School of Medicine; Kristiina Vuori, Alexandra Garancher, Lianne Q. Chau, Silvia K. Tacheva-Grigorova, Sameerah Wahab and Darren Finlay of Sanford Burnham Prebys; Yoko T. Udaka of Rady Children’s Hospital San Diego; Huriye Seker-Cin and Susanne Gröbner of Hopp Children’s Cancer Center; Brendan Reardon and Eliezer M. Van Allen of Dana-Farber Cancer Institute and the Broad Institute; Jonathan Serrano and Matija Snuderl of NYU Langone Health; Jonas Ecker and Till Milde of Hopp Children’s Cancer Center, German Cancer Research Center and University Hospital Heidelberg; Lin Qi and Mari Kogiso of Baylor College of Medicine; Yuchen Du, Patricia A. Baxter and Xiao-Nan Li of Baylor College of Medicine and Northwestern University; Jacob J. Henderson and Yoon-Jae Cho of Oregon Health & Science University; Michael E. Berens of the Translational Genomics Research Institute; James M. Olson of Fred Hutchinson Cancer Research Center and Seattle Children’s Hospital; Iris Reyes, Terence C. Wong, David P. Dimmock and Shareef A. Nahas of Rady Children’s Institute for Genomic Medicine; Denise Malicki, John R. Crawford and Michael L. Levy of Rady Children’s Hospital and UC San Diego; and Stefan M. Pfister of Hopp Children’s Cancer Center and German Cancer Research Center.

Research reported in this press release was supported by the National Institutes of Health (2R01CA159859, P30CA30199, U01CA184898, U24CA194107, U24CA220341, U01CA217885, R01NS096368, R01GM074024, P30CA030199), Deutsche Krebshilfe (111537), BMBF (01KT1605), Helmholtz International Graduate School for Cancer Research, Friedeberg Charitable Foundation, Pediatric Brain Tumor Foundation, Accelerate Brain Cancer Cure, Ian’s Friends Foundation, Alex’s Lemonade Stand Foundation, William’s Superhero Fund, the McDowell Charity Trust and the California Institute for Regenerative Medicine. The study’s DOI is 10.1158/0008-5472.CAN-20-1655.

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About Sanford Burnham Prebys Medical Discovery 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 SBPdiscovery.org or on Facebook at facebook.com/SBPdiscovery and on Twitter @SBPdiscovery.

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2R01CA159859; P30CA30199; U01CA184898; U24CA194107; U24CA220341; U01CA217885; R01NS096368; R01GM074024; P30CA030199; 111537; 01KT1605; Cancer Research