Breakthrough for Foot-and-Mouth Disease Vaccine

The new technology invented by Drs. Neilan and Puckette will allow FMD vaccine manufacturing in the U.S. because it does not require the use of live FMDV for vaccine production. The PIADC team used synthetic biology to alter and fuse multiple parts of the FMDV genome together to create a vaccine that only uses a portion of the virus genome, instead of a full, live virus.

The entire process is driven by a unique “modified picornavirus 3C protease.” (Protease is an enzyme that catalyzes the breakdown of proteins). The modified 3C protease cuts up the different parts of the virus to produce an “FMDV-like” particle. When the assembled virus-like particles are administered to livestock as a vaccine, they are able to trick the livestock’s immune system into thinking it has been infected by a real live FMDV, but without triggering sickness or destroying the host cells. The animals then develop protective immunity against the FMDV in case they are exposed in the future.

Since none of the vaccine components are extracted from viable virus, it is free from the risks associated with inactivated virus vaccines. This is a much safer process for making FMD vaccine, so the U.S. is allowed to manufacture the vaccine. This significantly improves the capability to protect the U.S. from a catastrophic FMD outbreak.

The novel vaccine technology allows for faster development times and less expensive manufacturing processes. “A key driver of vaccines, especially livestock vaccines, is cost,” said Dr. Neilan, S&T Science Director at PIADC, “More efficient vaccine manufacturing translates into lower costs, making newer vaccine technologies economically viable.”

Prevention and mitigation of FMD through vaccination has proven extremely difficult because picornaviruses, like FMDV, evolve and mutate frequently. Current vaccinations may only be effective for a specific strain or within a specific region. Using the traditional FMDV vaccine approach, creating new vaccines to combat emerging strains can take years and involve significant expenses.  Using synthetic biology, and PIADC’s newly invented technology, FMD vaccines against emerging strains may be completed in only a matter of months.

Finally, an entire country’s livestock trade can be embargoed by just one FMD positive test result. A complicating factor in FMD prevention has been that blood-based antibody tests cannot distinguish livestock that has been vaccinated with traditional vaccines from those infected with the virus. This means that if a herd has been vaccinated with a traditionally-made FMD vaccine the World Trade Organization will still prohibit export of that country’s livestock and livestock products due to this inability to differentiate vaccinated from infected animals.   

Until now.

Dr. Neilan commented that by following the PIADC molecular FMD vaccine process, “The new vaccine is DIVA (differentiation of infected from vaccinated animals) compatible.” That means that through a simple blood test, it can also be determined if an animal’s antibodies were from exposure to infectious FMDV or just vaccination. This allows for the potential preservation of healthy, uninfected livestock in the event of an outbreak.

The Path to Patent-Pending
Like most major accomplishments, the development of this patent-pending invention was a scientific team effort. More than a dozen team members worked on the project for five years. When completed, the DHS Office of General Counsel’s Intellectual Property Division drafted and filed an international patent application under the Patent Cooperation Treaty.

“This technology allows for the more efficient development and manufacturing of vaccines against novel emerging FMDV serotypes,” said Dr. Neilan. The invention itself is not for new FMD vaccines, but rather for a new “process” (like a blueprint) for making molecular-based vaccines. By following this newly invented blueprint, other scientists may be able to create future animal and human vaccines, specifically for picornaviruses.

Dr. Puckette added, “Following these DHS blueprints, designer vaccines for effective protection against novel, emerging FMDV strains can be developed in months as opposed to years.” Thus, the DHS vaccine production process is safer, less expensive, and can yield a vaccine stockpile that is more effective against a broader range of FMDV strains.

What is the Global Impact?

While FMD has been eradicated in most developed nations this does not mean that FMD-free regions are off the hook as FMD is still prevalent in three-quarters of the countries on Earth. Prevention and monitoring are a constant strain on resources. For countries in the crosshairs of FMD, the toll is high with severe threats to food security, economic prosperity and international livestock trade. Staggering figures cited by the National Institutes of Health estimate the annual number of livestock affected by FMD is between 28 and 79 million animals and the economic losses range between $6.5 and $21 billion.

When an FMD outbreak occurs, it can be devastating. The highly communicable virus is directly transmissible from infected animals to susceptible animals, as well as through contaminated materials and products that can harbor infectious virus. It can rapidly blaze through a herd, a region, or a country’s livestock animals via standard commercial transportation.

The hardships for ranchers, farmers, and small landowners can be crushing, both financially and psychologically. When FMD does surface, control of the disease epidemic requires aggressive measures. Infected animals are euthanized. Unfortunately, so are healthy, uninfected animals. Simultaneously, a strict quarantine is enforced, and disinfection protocols are enacted. Over the years, the culling of infected animals (along with healthy ones) has resulted in the slaughter of millions of livestock to protect countries exports from FMD trade bans. This can decimate a nation’s agricultural economy and plunge entire populations into immediate food crisis.

The Future and FMD
Going forward, the goal is to ensure that the DHS FMD vaccine technology is commercialized and made available to protect our agricultural community. The DHS manufacturing blueprints described in the WIPO publication, together with the existing portfolio of five other FMD-related patents, may help to create the next generation of FMD vaccines at a lower cost, with less risk, and faster than ever.

Currently, there is no magic bullet on the horizon for global eradication of FMD, so controlling the spread through any means necessary continues to be the best practice. The patent-pending PIADC methodology is the best way to accomplish global control and mitigation.

“I think it has always been my hope to develop something useful, something that makes an actual impact rather than publishing scientific discoveries in a paper that few people will ever read,” Puckette reflected. “I think this work may actually be that and it makes me feel good about the work I and my S&T teammates have done.”