University of British Columbia researchers
have found a potential way to develop universal flu vaccines and eliminate the
need for seasonal flu vaccinations.
Each
year, seasonal influenza causes serious illnesses in three to five million
people and 200,000 to 500,000 deaths. The 2009 H1N1 pandemic killed more than
14,000 people worldwide. Meanwhile, public health and bioterrorism concerns are
heightened by new mutations of the H5N1 "bird flu" virus,
published last week by the journal Nature, that could facilitate
infection among mammals and humans.
Led by
Prof. John Schrader, Canada Research Chair in Immunology and director of UBC's
Biomedical Research Centre, the research team found that the 2009 H1N1
"swine flu" vaccine triggers antibodies that protect against many influenza viruses,
including the lethal avian H5N1 "bird flu" strain.
Details
are published today in the journal Frontiers in Immunology.
"The flu virus has a
protein called hemagglutinin, or HA for short. This protein is like a flower
with a head and a stem," says Schrader, a professor in Medicine and
Pathology and Laboratory Medicine. "The flu virus binds tohuman cells via the
head of the HA, much like a socket and plug.
"Current
flu vaccines target the head of the HA to prevent infections, but because the
flu virus mutates very quickly, this part of the HA changes rapidly, hence the
need for different vaccines every flu season."
Vaccines
contain bits of weak or dead germs that prompt the human immune system to
produce antibodies that circulate in the blood to kill those specific germs.
However, the research team found that the 2009 pandemic H1N1 vaccine induced
broadly protective antibodies capable of fighting different variants of the flu
virus.
"This
is because, rather than attacking the variable head of the HA, the antibodies
attacked the stem of the HA, neutralizing the flu virus," says Schrader.
"The stem plays such an integral role in penetrating the cell that it
cannot change between different variants of the flu virus."
The new
discovery could pave the way to developing universal flu vaccines.
Schrader
says the characteristics of the human immune system make it difficult for
influenza vaccines to induce broadly protective antibodies against the HA stem.
"The pandemic H1N1 swine flu was
different, because humans had not been exposed to a similar virus," he
adds.
Schrader
has evidence that a vaccine based on a mixture of influenza viruses not
circulating in humans but in animals should have the same effect and
potentially make influenza pandemics and seasonal influenza a thing of the
past.
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