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Poliovirus Therapy Induces Immune Responses Against Cancer

Investigational therapy directly kills tumor cells and unmasks them to the body’s defenses

Dr. Matthias Gromeier holds a sample of the modified poliovirus he developed which attacks glioblastoma brain tumor cells.

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Sarah Avery
Sarah Avery
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DURHAM, N.C. – An investigational therapy using modified poliovirus to attack cancer tumors appears to unleash the body’s own capacity to fight malignancies by activating an inflammation process that counter’s the ability of cancer cells to evade the immune system.

Describing this process in a paper published Sept. 20 in the journal Science Translational Medicine, Duke Cancer Institute researchers provide the first published insight into the workings of a therapy that has shown promise in early clinical trials in patients with recurrent glioblastoma, a lethal form of brain cancer. The modified poliovirus received a breakthrough therapy designation from the Food and Drug Administration last year, expediting research.

“We have had a general understanding of how the modified poliovirus works, but not the mechanistic details at this level,” said co-senior author Matthias Gromeier, M.D., a professor in the Duke Department of Neurosurgery who developed the therapy. “This is hugely important to us. Knowing the steps that occur to generate an immune response will enable us to rationally decide whether and what other therapies make sense in combination with poliovirus to improve patient survival.”

Gromeier, with expertise in cancer biology, collaborated with fellow Duke researcher and co-senior author Smita Nair, Ph.D., an immunologist and professor in the Department of Surgery. The research team elucidated how the poliovirus works not only to attack cancer cells directly, but also to trigger a longer-lasting immune response that appears to inhibit regrowth of the tumor.

Using human melanoma and breast cancer cell lines, and then validating the findings in mouse models, the researchers found that the modified poliovirus therapy starts by attaching to malignant cells, which have an abundance of CD155 protein. The CD155 protein is otherwise known as the poliovirus receptor. The modified virus then begins to attack the tumor cells, directly killing many, but not all. This releases tumor antigens.

The second phase of assault is more complicated. By killing the cancer cells, the modified poliovirus triggers an alarm within the immune system, alerting the body’s defenses to go on the attack.

This appears to occur when the modified poliovirus infects dendritic cells and macrophages. Dendritic cells then present tumor to T cells to launch an immune response. Once the immune system is activated against the poliovirus-infected tumor, the cancer cells can no longer hide and they remain vulnerable to ongoing immune attack.

“Not only is poliovirus killing tumor cells, it is also infecting the antigen-presenting cells, which allows them to function in such a way that they can now raise a T-cell response that can recognize and infiltrate a tumor,” Nair said. “This is an encouraging finding, because it means the poliovirus stimulates an innate inflammatory response.”

Nair and Gromeier said further studies will focus on the additional immune activity following exposure to the modified virus. 

In addition to Gromeier and Nair, study authors include Michael C. Brown, Eda K. Holl, David Boczkowski, Elena Dobrikova, Mubeen Mosaheb, Vidya Chandramohan and Darell D. Bigner.

The study received support the Public Health Services (CA197264, CA124756 and CA190991), the Department of Defense, (W81XWH-16-1-0354); the Lefkofsky Family Foundation, Hope & Gavin Wolfe, and the BLAST Glioblastoma Foundation.

Nair and Gromeier, along with Brown, Chandramohan and Bigner, own intellectual property related to this research, which has been licensed to a company, Istari Oncology, Inc. Gromeier and Bigner are cofounders and equity holders in the company.

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