Johns
Hopkins University Bloomberg School of Public Health
By
studying the weakened flu virus that is the basis for the nasal spray vaccine
in cells from human nasal and sinus cavities, the researchers say they have
determined that the virus can be weakened (for young children) or strengthened
(in older people) enough to create an appropriate immune response in people of
all ages.
A
report on the findings is published online in the journal Vaccine.
"We can do it in a
sophisticated and accurate way, not in a blind manner, which is how these
vaccines are usually developed."
Pekosz
says he is particularly excited about being able to produce a better vaccine
for older people since flu vaccines are less effective in people as they age
and because those over the age of 60 are more likely to get the flu and more
likely to suffer serious complications.
One reason vaccines using weakened flu
virus are not used in the elderly is that they have been exposed to many
strains of flu virus over the years and have more antibodies in the nasal
tract, which can inhibit the weakened flu virus from infecting and stimulating
the immune response necessary to protect against the virus.
"We
don't have a really good effective vaccine in the elderly," Pekosz says.
"Even the injectable version doesn't work as well in that population. And
they're the ones who need it the most. We hope our research can get us closer
to having effective flu vaccines for any age."
Children
ages six months to two years can receive an injectable flu vaccine, but the
nasal spray vaccine is recommended in children between the ages of two and
eight because it is believed to give better protection than the shot.
For
their research, Pekosz and his team, using human nasal tract cells, studied the
weakened strain of the flu virus that is used in the nasal spray vaccine and
compared its behavior with that of the flu virus itself. Using these nasal
tract cells allowed the researchers to determine that the weakened flu virus
behaved differently than previous research had suggested.
He says that at the
end of the life cycle of the weakened virus, virus-infected cells send out
harmless, non-infectious particles that immune cells pick up and attack to
create antibodies against an actual flu virus that could attempt to infect the
body later. This response, however, was not as robust as the researchers
imagined.
To
create the weakened flu strain contained in FluMist, the brand name of the nasal
spray vaccine, nine mutations in the flu virus were made. Researchers
previously believed that only five of them were relevant to creating the
spray's immune response, but Pekosz says his new research suggests that all
nine may be important.
By making adjustments to those mutations, he believes
that a stronger vaccine can be made without an increase in side effects. He
says that a weaker one can also be made -- one that still protects from flu --
for children under two.
Currently,
there is a flu shot available for the elderly that has twice the dose of a
regular flu shot. While this vaccine is more effective in the elderly, Pekosz
says there is certainly room for improvement and a need for different vaccine
options.
Pekosz
says his team is currently collaborating with MedImmune, the makers of the
FluMist, to help develop a better vaccine based on these findings. He says if
all goes well, he believes there could be a new vaccine to test within six to
12 months for both the oldest and youngest.
