New Type of Vaccines Developed To Provide Stronger, Faster Immune Response

By LabMedica International staff writers
Posted on 23 Dec 2008
A New vaccine technology is being developed that when it performs to its full expected potential could help to save millions of lives and transform current vaccine technology.

The InVacc platform, developed by scientists from the University of Copenhagen (Denmark), represents a new advance on the original DNA vaccines and generates new vaccines with greatly enhanced characteristics. The platform consists of a chain of amino acids attached to a gene of the virus against which one is being vaccinated. This genetic cocktail is then inserted into an incapacitated flu-like virus such as the adenovirus and injected into the body, where it triggers a wider and more aggressive immune response, enabling the immune system to rapidly seek out and destroy the disease when it invades.

"We are excited to be working on the vaccine technology,” remarked associate professor Dr. Jan Pravsgaard, the lead scientist behind the project. "The platform has proved very effective in our recent tests and could have enormous potential. In principle, vaccines of this type could be used to inoculate against a range of deadly viruses, bacteria, and other disease-causing agents and even be used to cure certain cancers once they take hold.”

Tests of the vaccine platform on mice so far look extremely promising with the scientists able to provide 100% protection against different, deadly strains of flu given to the test animals. The scientists also believe that the new technology will be effective despite the ability of different viruses and bacteria to constantly mutate and develop resistance.

Key benefits of the new technology include (1) the delivery of a broad and very powerful immune response, enabling the immune system to defeat invading pathogens. Unlike many vaccines, InVacc activates the CD4+ T cells of the immune system, which regulate and coordinate the other immune system attack cells. For reasons not yet fully understood, activating the CD4+ cells enhances the response of the associated attack cells (producing large numbers of CD8+ cells) and is an important reason why the platform is able to deliver such a strong immune response. (2) Rapid protection: in animal tests, complete protection was achieved in less than three days after only one vaccination. This could have significant implications for the handling of epidemics, quickly halting infection rates and preventing major outbreaks.

The Scandinavian company Novo A/S (Sorgenfri, Denmark) has such confidence in the new technology that they have already invested funds to create a strategic plan for development and use of the platform. "The grants awarded through our Novo Seeds program are only for very select projects that show outstanding promise, both scientifically and commercially, explained Novo Seeds investment director, Stephen Christgau. "The InVacc platform is definitely one of those. Our grants will help the team to develop and commercialize their groundbreaking research and validate the advantages of the vaccine platform against competing technologies.”

Peter Holst, Ph.D., from the vaccine research team, together with the Technical Transfer Unit at the University of Copenhagen, are currently also looking for backing from international funds to take the project to its next phase of development and ultimately into clinical trials.

Related Links:
University of Copenhagen

Novo >> www.novo.dk


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