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Researchers at Georgia State University.develop universal flu vaccine that protects against six influenza viruses in mice. The researchers developed and showed that a novel nanoparticle vaccine that combines two major influenza proteins is effective in providing broad, long-lasting protection against the influenza virus in mice, showing promise as a universal flu vaccine. Findings from the new study—performed in mice and published recently in Advanced Healthcare Materials through an article titled “Double‐Layered M2e‐NA Protein Nanoparticle Immunization Induces Broad Cross‐Protection against Different Influenza Viruses in Mice”—suggest this unique vaccine combination has potential as a universal influenza vaccine or component of such vaccines.
The double-layered nanoparticle vaccine contains the influenza virus proteins matrix protein 2 ectodomain (M2e) and neuraminidase (NA). Mice were immunized with the nanoparticle vaccine before being exposed to the influenza virus, and they were protected against six different strains of the virus. “This nanoparticle antigen combination conferred mice with strong cross-protection,” explained lead study investigator Ye Wang, a doctoral candidate at the Institute for Biomedical Sciences. “It can protect mice from different strains of influenza virus. Each season, we have different flu strains that affect us. By using this approach, we hope this nanoparticle vaccine can protect humans from different strains of the influenza virus.”
Influenza is a leading cause of death by infection. Seasonal flu vaccines are insufficient to prevent influenza outbreaks and developing a universal influenza vaccine is the ideal strategy for eliminating public health threats of influenza epidemics and pandemics. A universal influenza vaccine would eliminate the need for vaccinations each season and offers universal protection against all influenza strains. The influenza virus protein M2e is found in all influenza virus strains, with each strain having a very similar version, and the protein has mutated very slowly over time. The protein NA is found on the surface of the influenza virus and has also mutated much slower than other influenza proteins. This double-layered nanoparticle vaccine uses M2e as its core, and NA is coated on the surface. In the current study, mice were exposed to one of six influenza virus strains after receiving the nanoparticle vaccine by intramuscular injection. The vaccine proved to have long-lasting immune protection, which was unchanged against viral challenges up to four months after immunizations.
Published in Advanced Healthcare Materials (Dec. 15, 2019):
