Poliovirus Trial

Clinical Trials for Adults |A Phase I Clinical Trial for Recurrent Glioblastoma Patients Opens for Accrual at the Preston Robert Tisch Brain Tumor Center

Targeting Cancer with Genetically Engineered Poliovirus (PVS-RIPO)

Matthias Gromeier, MD 
Associate Professor of Surgery (Neurosurgery) and Molecular Genetics and Microbiology

Gordana Vlahovic, MD, MHS, Study Principal Investigator
Associate Professor of Medicine / Oncology

Many millions of dollars from grant and philanthropic funds have already been invested in this genetically-modified poliovirus work, and significant additional funds will be required to continue to move it forward. If you wish to donate to this important scientific advancement, please visit our online donation form.

A Brief Background About PVS-RIPO. 
PVS-RIPO is a genetically engineered poliovirus that is being investigated as a new anti-cancer agent at the Preston Robert Tisch Brain Tumor Center at Duke. The idea of targeting cancer with viruses has been around for at least 100 years. However, valid strategies of using ‘oncolytic’ (cancer-fighting) viruses emerged only recently. This is mostly due to technological advances in genetic engineering of viruses.

To work against cancers in patients, oncolytic viruses must target cancer cells for infection and they must kill them. At the same time, they must be safe. Accomplishing this is very difficult scientifically and only very few viruses are suitable as cancer-fighting agents in the clinic. We achieved this feat by genetic engineering to remove poliovirus’ inherent disease-causing ability (a piece of genetic code of a cold-causing rhinovirus was spliced into the poliovirus genome). PVS-RIPO naturally infects almost all cancer cells, because the receptor for poliovirus (which is used for cell entry) is abnormally present on most tumor cells. PVS-RIPO kills cancer cells, but not normal cells, because its ability to grow (and kill) depends on biochemical abnormalities only present in cancer cells. Safety testing in non-human primates and human patients has shown no nerve cell killing, no ability to cause poliomyelitis, and no ability of PVS-RIPO to change back to wild type poliovirus that can cause poliomyelitis.

MRI of patient on Poliovirus trial

How Does PVS-RIPO work? PVS-RIPO is infused directly into a patients’ tumor (e.g. in the brain). This assures that the maximal amount of virus is delivered directly to the tumor. Once inside the tumor, PVS-RIPO infects and kills tumor cells. Although this tumor cell killing alone may have tumor-fighting results, the likely key to therapy with PVS-RIPO is its ability to recruit the patients’ immune response against the cancer. There are many events following PVS-RIPO infusion into the tumor that can contribute to such an outcome. The human immune system is trained to recognize virus infections and, thus, responds vigorously to the infected tumor. Unraveling why and how the immune system attacks tumors that were infused with PVS-RIPO is a major research goal in the Gromeier Laboratory.

What are our Plans for the Future? Currently, Phase I clinical trials of PVS-RIPO against recurrent glioblastoma brain tumors are ongoing at Duke. We plan to extend these studies (Phase II/III) in a quest to establish PVS-RIPO as a possible therapy for brain tumors. In addition, PVS-RIPO has the potential to work for other types of cancers. The reason for this is that the mechanisms responsible for PVS-RIPO’s effects against brain tumors broadly apply to almost all cancers.

Clinical Trials. There are several initiatives for further clinical development of PVS-RIPO:
a) against glioblastoma brain tumors in adults. We are planning Phase II/III trials in patients with glioblastoma;
b) against brain tumors in children. The mechanisms that make PVS-RIPO safe and efficacious in adult brain tumors also work for similar types of brain cancers in children. We are planning to investigate PVS-RIPO in children with brain tumors;
c) against tumors other than brain cancers. Because PVS-RIPO naturally targets and destroys cancer cells from most common cancer types (pancreas, prostate, lung, colon, and many others), it can be directed against these cancers as well. To establish this in the clinic, we plan future clinical trials in patients with cancers other than brain tumors.

What Do We Need to Make PVS-RIPO a Success Against Cancer? The key to better cancer care is a better understanding of the disease and the mechanisms that may work to fight it. We already have much information about PVS-RIPO, because of a very successful research effort in the Gromeier Laboratory that now spans >10 years. We will continue to identify why anti-tumor responses occur in brain tumor patients infused with PVS-RIPO and how we can best harness them for cancer therapy in general.

Research currently ongoing in the Gromeier Laboratory is designed to a) explain why/how PVS-RIPO kills cancer cells selectively; b) unravel how the patients’ immune system responds to tumor infection with PVS-RIPO; and c) how this immune response fights the tumor itself.

PVS-RIPO virus The structure of the PVS-RIPO virus.
The Virus particle consists of a protein shell (blue, red and green shapes) arranged in a symmetric structure. In this image, the particle has been "cracked open," to reveal the virus genome (yellow, pink), which is surrounded by the protein shell. The PVS-RIPO genetic code is based on the Sabin vaccine (yellow) with a piece of genetic information from a common cold virus spliced in (pink).


For further information please contact the Preston Robert Tisch Brain Tumor Center at Duke at (919) 684-5301.

This article comes from The Preston Robert Tisch Brain Tumor Center at Duke   https://www.cancer.duke.edu/btc
The URL for this story is:   https://www.cancer.duke.edu/btc/modules/Research3/index.php?id=41