Scientists have identified a potential way to improve future flu
vaccines after discovering that seasonal flu typically escapes immunity
from vaccines with as little as a single amino acid substitution.
Additionally, they found these single amino acid changes occur at only
seven places on its surface -- not the 130 places previously believed.
The research was published today, 21 November, in the journal Science.
Family with the flu. Scientists have identified a potential way to
improve future flu vaccines after discovering that seasonal flu
typically escapes immunity from vaccines with as little as a single
amino acid substitution. (Credit: © Creativa / Fotolia)
"This work is a major step forward in our understanding of the
evolution of flu viruses, and could possibly enable us to predict that
evolution. If we can do that, then we can make flu vaccines that would
be even more effective than the current vaccine," said Professor Derek
Smith from the University of Cambridge, one of the two leaders of the
research, together with Professor Ron Fouchier from Erasmus Medical
Center in The Netherlands.
The flu vaccine works by exposing the body to parts of inactivated
flu from the three major different types of flu that infect humans,
prompting the immune system to develop antibodies against these viruses.
When exposed to the actual flu, these antibodies can eliminate the flu
virus.
However, every two or three years the outer coat of seasonal flu
(made up of amino acids) evolves, preventing antibodies that would fight
the older strains of flu from recognising the new strain. As a result,
the new strain of virus escapes the immunity that has been acquired as a
result of earlier infections or vaccinations. Because the flu virus is
constantly evolving in this way, the World Health Organisation meets
twice a year to determine whether the strains of flu included in the
vaccine should be changed.
For this study, the researchers created viruses which had a variety
of amino acid substitutions as well as different combinations of amino
acid substitutions. They then tested these viruses to see which
substitutions and combinations of substitutions caused new strains to
develop.
They found that seasonal flu escapes immunity and develops into new
strains typically by just a single amino acid substitution. Until now,
it was widely believed that in order for seasonal flu to escape the
immunity individuals acquire from previous infections or vaccinations,
it would take at least four amino acid substitutions.
They also found that such single amino acid changes occurred at only
seven places on its surface -- all located near the receptor binding
site (the area where the flu virus binds to and infects host cells). The
location is significant because the virus would not change so close to
the site unless it had to, as that area is important for the virus to
conserve.
"The virus needs to conserve this, its binding site, as it uses this
site to recognize the cells that it infects in our throats," said Bjorn
Koel, from Erasmus Medical Center in The Netherlands and lead author of
the paper.
Seasonal flu is responsible for half a million deaths and many more hospitalizations and severe illnesses worldwide every year.
Journal Reference:
- Björn F. Koel, David F. Burke, Theo M. Bestebroer, Stefan Van Der Vliet, Gerben C. M. Zondag, Gaby Vervaet, Eugene Skepner, Nicola S. Lewis, Monique I. J. Spronken, Colin A. Russell, Mikhail Y. Eropkin, Aeron C. Hurt, Ian G. Barr, Jan C. De Jong, Guus F. Rimmelzwaan, Albert D. M. E. Osterhaus, Ron A. M. Fouchier, Derek J. Smith. Substitutions Near the Receptor Binding Site Determine Major Antigenic Change During Influenza Virus Evolution. Science, 22 November 2013: Vol. 342 no. 6161 pp. 976-979 DOI: 10.1126/science.1244730
Courtesy: ScienceDaily
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