Recommended

Discover how to understand pain pathways and accelerate the search for next-generation analgesics – register today
LAST CHANCE TO REGISTER | Join top cancer researchers to explore advances transforming early discovery, from new targets and models to the therapies of tomorrow
NEW REPORT | Explore how data-driven systems improve reproducibility, speed decisions and make scale achievable across research and development.
The scientific advances driving cancer drug discovery – find out more
Meet the precision peptide changing how we study pain
news

Using Ebola’s immune evasion mechanism to target glioblastoma

An innovative chimeric vaccine containing an Ebola gene that helps the virus evade the immune system has been used to selectively target and kill glioblastoma in mice.

Ebola virus 3D rendering

Researchers have used a chimeric vaccine containing a gene from the Ebola virus to target and kill glioblastoma.

“The irony is that one of the world’s deadliest viruses may be useful in treating one of the deadliest of brain cancers,” said Anthony van den Pol, professor of neurosurgery at Yale University, US.

The scientists worked from the principle that a large percentage of cancer cells cannot generate an innate immune response, while healthy cells can. The researchers identified that one of the seven genes in Ebola enables it to evade the immune system, so used this gene as part of a chimeric vaccine to target glioblastoma.

 

access your free copy

 


Biomarkers are redefining how precision therapies are discovered, validated and delivered. 

This exclusive expert-led report reveals how leading teams are using biomarker science to drive faster insights, cleaner data and more targeted treatments – from discovery to diagnostics.

Inside the report:

  • How leading organisations are reshaping strategy with biomarker-led approaches
  • Better tools for real-time decision-making – turning complex data into faster insights
  • Global standardisation and assay sensitivity – what it takes to scale across networks

Discover how biomarker science is addressing the biggest hurdles in drug discovery, translational research and precision medicine – access your free copy today

 

The results were published in the Journal of Virology and demonstrate that injecting a chimeric vaccine containing the Ebola gene for a glycoprotein with a mucin-line domain (MLD) into the brains of mice with glioblastoma selectively targeted and killed the brain tumours.

Van den Pol said MLD’s beneficial effect appears to be that it protects normal cells from infection, but not cancer cells, which lack the ability to mount an immune response to pathogens. He also said that, because the virus with the glycoprotein MLD replicates less rapidly, it is potentially safer than viruses without the MLD part of the glycoprotein.

The researchers concluded that this kind of chimeric vaccine might be used in conjunction with surgery to eliminate glioblastoma tumours in future.

Leave a Reply

Your email address will not be published. Required fields are marked *