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Novobiocin Attacks BRCA-Mutated Cancer Cells from Within and Without, Study Shows

As the first clinical trial of the drug novobiocin is about to open for patients with cancers carrying BRCA gene mutations, new research at Dana-Farber Cancer Institute shows the drug poses a double threat to tumor cells.

Jeffrey Patterson-Fortin, MD, PhD

Jeffrey Patterson-Fortin, MD, PhD

As the first clinical trial of the drug novobiocin is about to open for patients with cancers carrying BRCA gene mutations, new research at Dana-Farber Cancer Institute shows the drug poses a double threat to tumor cells.

As reported in Nature Communications, the researchers found that in addition to taking aim at the inner workings of BRCA-mutated cells, novobiocin also incites an immune system attack on the cells. The findings suggest that even if novobiocin proves as effective as hoped in clinical trials, it may work significantly better if paired with drugs that magnify the immune response.

In January, the U.S. Food and Drug Administration approved novobiocin for a clinical trial in patients with cancers harboring mutations in the BRCA1 or BRCA2 genes. The trial, to be led by Dana-Farber investigators, is expected to start enrolling patients by June 1.

"Novobiocin is an inhibitor of POLθ, an enzyme critical to the survival of cancers with mutations in BRCA1 or BRCA2," explains the study's lead author, Jeffrey Patterson-Fortin, MD, PhD, of Dana-Farber. "From previous research, we knew that disabling POLθ with novobiocin killed BRCA1- or BRCA2-mutant cancers. Here, we wanted to examine the contribution of the immune microenvironment – the immune system cells within a tumor – to the anticancer effect of novobiocin."

Using two tumor models – one of triple-negative breast cancer with BRCA1 mutations, and one of pancreatic cancer with BRCA2 mutations – researchers showed that novobiocin heightens the mayhem already occurring in cell division, with lethal consequences for tumor cells.

They found the drug causes tumor cells to become increasingly riddled with micronuclei – miniature nuclei that contain damaged fragments of chromosomes. The chromosome pieces slip easily through gaps in the micronuclei membranes and into the cells' cytoplasm, activating a protein pathway known as cGAS/STING. The pathway causes disease-fighting CD8+ T cells to invade the tumors and go into attack mode.

To determine the extent to which this process is responsible for the tumor cell-killing effect of novobiocin, Patterson-Fortin and his colleagues depleted CD8+ T cells from the two tumor models and found the effect of novobiocin was sharply diminished. "This demonstrates that the stimulation of the immune system is a major part of novobiocin's effectiveness, in addition to its direct effect on tumor cells," says the study's senior author, Geoffrey Shapiro, MD, PhD, of Dana-Farber.

One of the ways that the tumor cells adapt to the presence of novobiocin is by upping their production of the PD-L1 protein, which helps fend off a T-cell attack, Shapiro continues. This suggests that combining novobiocin with a PD-1-blocking agent could be more effective than novobiocin alone. Investigators hope to launch a clinical trial of the combination in the future.

The co-authors of the study are: Heta Jadhav, MS, Constantia Pantelidou, PhD, Tin Phan, Carter Grochala, and Alan D. D’Andrea, MD, of Dana-Farber; Brian M. Wolpin, MD, MPH, Andrew J. Aguirre, PhD, and James M. Cleary, MD, PhD, of Dana-Farber and Brigham and Women's Hospital; Anita K. Mehta, PhD, and Jennifer L. Guerriero, PhD, of Brigham and Women's; Gerburg M. Wulf, MD, of Beth Israel Deaconess Medical Center; and Ben Z. Stanger, MD, PhD, of University of Pennsylvania School of Medicine.

The research was supported by the National Institutes of Health (grants R01 CA272982, R01 HL052725) the Dana-Farber/Harvard Cancer Center Specialized Program of Research Excellence (SPORE) in Gastrointestinal Cancer (grant P50 CA 127003); a Lustgarten Foundation/Stand Up to Cancer Pancreatic Cancer Challenge grant; the Breast Cancer Research Foundation; the Fanconi Anemia Research Fund; The Ludwig Center at Harvard; the Smith Family Foundation, the DF/HCC SPORE in Breast Cancer (P50 CA186504); and a Wong Family Award in Translational Oncology.

About Dana-Farber Cancer Institute

Dana-Farber Cancer Institute is one of the world’s leading centers of cancer research and treatment. Dana-Farber’s mission is to reduce the burden of cancer through scientific inquiry, clinical care, education, community engagement, and advocacy. Dana-Farber is a federally designated Comprehensive Cancer Center and a teaching affiliate of Harvard Medical School.

We provide the latest treatments in cancer for adults through Dana-Farber Brigham Cancer Center and for children through Dana-Farber/Boston Children’s Cancer and Blood Disorders Center. Dana-Farber is the only hospital nationwide with a top 5 U.S. News & World Report Best Cancer Hospital ranking in both adult and pediatric care.

As a global leader in oncology, Dana-Farber is dedicated to a unique and equal balance between cancer research and care, translating the results of discovery into new treatments for patients locally and around the world, offering more than 1,100 clinical trials.

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