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December 6, 2022
Using mRNA technology for a universal flu vaccine
At a Glance
- A vaccine using mRNA technology induced an immune response in mice and ferrets against 20 different types of influenza.
- It also provided the animals protection against death from flu strains not included in the vaccine, showing its potential to help prevent future flu pandemics.
Influenza, the virus that causes the flu, can be deadly. Twenty different types of the virus聽have been identified. Many of these circulate between animals and people. This, along with the seasonal virus鈥檚 frequent mutations, makes developing effective flu vaccines with broad protection difficult.
Seasonal flu vaccines are reformulated each year to tailor them to the virus types predicted to be most common in the upcoming flu season. If these predictions are off, the season鈥檚 flu vaccine may not provide optimal protection.
Researchers have long been working toward a universal vaccine that could protect against all known influenza types and prevent future flu pandemics. Most of these efforts have focused on trying to induce the immune system to recognize areas of the virus that are similar between types.
An NIH-funded research team led by Dr. Scott Hensley from the University of Pennsylvania tested a different strategy. They designed a vaccine that included a virus protein from all 20 distinct influenza types. Such a strategy hadn鈥檛 been possible with traditional vaccine production methods. But the researchers thought it might be with mRNA technology. This technology had been used for some of the vaccines against SARS-CoV-2, the virus that causes COVID-19.
In their new study, the team made a vaccine using mRNAs for a key virus protein called hemagglutinin (HA) from all 20 influenza types. The mRNA was packaged in protective fatty nanoparticles. The researchers聽then tested the vaccine in mice and ferrets. Results were published on November 25, 2022, in Science.
Vaccinated mice produced antibodies against both similar and unique regions of all 20 different HAs, and levels of these antibodies remained unchanged for months after vaccination. This robust antibody production occurred whether or not the mice had previously been exposed to one of the flu strains.
When vaccinated mice were exposed to a flu strain similar to one of those in the vaccine, they stayed relatively healthy, and all survived the viral challenge. In contrast, unvaccinated mice exposed to the same flu strain did not survive.
When the team exposed vaccinated mice to a flu strain that was less similar to the ones in the vaccine, the mice got sick but recovered faster than unvaccinated mice. Most of the vaccinated mice survived, but none of the unvaccinated mice did. Even when the researchers depleted T cells, which can also help protect again infection, from the vaccinated mice, the vaccine remained effective. This result showed that most of the protection was coming from the vaccine-generated antibodies.
Finally, the researchers tested a two-dose vaccination strategy, similar to that used for COVID-19, in ferrets. A month after the second dose, they challenged the ferrets with an avian flu strain that was distinct from the ones used in the vaccine. Vaccinated animals got sick, but recovered quickly and all survived. In contrast, half of the unvaccinated animals died, and those that survived took longer to clear the virus from their bodies.
鈥淔or a conventional vaccine, immunizing against all these types would be a major challenge, but with mRNA technology it鈥檚 relatively easy,鈥 Hensley says. 鈥淭he idea here is to have a vaccine that will give people a baseline level of immune memory to diverse flu strains, so that there will be far less disease and death when the next flu pandemic occurs.鈥
This vaccine hasn鈥檛 yet been tested in people. But with further development, such universal mRNA vaccines have the potential to protect against both seasonal influenza viruses and those with the potential to cause pandemics.
鈥攂y Sharon Reynolds
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References: Arevalo CP, Bolton MJ, Le Sage V, Ye N, Furey C, Muramatsu H, Alameh MG, Pardi N, Drapeau EM, Parkhouse K, Garretson T, Morris JS, Moncla LH, Tam YK, Fan SHY, Lakdawala SS, Weissman D,聽Hensley SE. Science. 2022 Nov 25;378(6622):899-904. doi: 10.1126/science.abm0271. Epub 2022 Nov 24. PMID:聽36423275.
Funding: NIH鈥檚 最新麻豆视频 Institute of Allergy and Infectious Diseases (NIAID) and Burroughs Wellcome Fund.