Eat up your vaccine
Plant extracts provide measles
immunity on a plate.
22 July 2002
KENDALL POWELL
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| Crops could soon boost
immunity. |
| © J.Martin |
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Lettuce might replace booster shots in the next generation of
vaccines. Researchers have raised the immunity of mice to
measles by feeding them a booster vaccine derived from plants1.
The study is a step towards an edible measles vaccine for
developing countries that would not require refrigeration or
skilled medical personnel to deliver jabs. Measles is one of the
most contagious human viruses, and kills an estimated 800,000
people a year, predominantly African infants.
"Logistically, if we want to vaccinate 90% of the population
in Africa, an oral vaccine is much more sensible," says
virologist Steve Wesselingh now at the Macfarlane Burnet
Institute for Medical Research and Public Health in Melbourne,
Australia.
Wesselingh and his co-workers injected mice with a DNA
measles vaccine. It caused the rodents' muscle cells to produce
a viral protein on their surface. This primes an animal's immune
system to start making antibodies.
21 or 90 days after the first injection the researchers fed
the animals tobacco plant juice containing the same viral
protein. The extracts came from tobacco plants that had been
genetically modified to express the measles protein inside their
cells.
These mice had much higher levels of antibodies against
measles than animals fed the juice of ordinary plants. Indeed,
the combination of DNA and oral vaccine raised antibody levels
beyond what is considered protective against measles in humans.
"Not everything that works in mice, works in humans,"
cautions Gregory Poland, director of the Mayo Vaccine Research
Group in Rochester, Minnesota. "But this is good
proof-of-principle."
To move towards a truly edible vaccine, the team has
expressed the measles protein in lettuce and in rice, which
could be ground into cereal for infants. Next they will test
their vaccination strategy in macaques or baboons.
Remote access
"An oral vaccine would have profound economic and practical
implications if it pans out for human use," says Poland. "It
could ease or remove barriers to eradication in the third
world."
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Not everything that works in mice, works in
humans
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Gregory Poland
Mayo Vaccine Research Group
Rochester, Minnesota |
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|
Traditionally, infants are immunized against measles with
injections of a live, weakened form of the measles virus at 1
and 5 years of age.
In developing countries, using a live virus poses several
problems. The biggest is keeping the vaccine cold in remote
areas that lack electricity. Injecting the vaccine also requires
skilled medical personnel and clean needles - both are typically
in short supply. The vaccine is also expensive to produce.
DNA vaccine is similarly costly and must be injected, but it
is effective at room temperature. So too are edible vaccines
derived from plants. These do away with the need for needles and
skilled workers and could be produced cheaply in local fields.
Oral test
"The work in measles is an example that perhaps boosting
orally can work in a number of situations," says Yasmin
Thanavala of the Roswell Park Cancer Institute in Buffalo, New
York.
Thanavala's group has developed a potato vaccine booster for
use in conjunction with injected hepatitis B vaccine. It is
currently in phase I and II clinical trials for patients who
have previously been vaccinated2.
|
Perhaps boosting
orally can work
in a number
of situations
|
Yasmin Thanavala
Roswell Park
Cancer Institute
Buffalo, New York |
|
|
Edible vaccines could also be useful against diseases that
require lifelong boosting. Adults are much more likely to eat
food than receive the multiple injections expected for HIV or
malaria vaccinations to be effective.
But even if edible vaccines prove effective in humans,
getting approval for genetically modified crops and establishing
rules for farming and dosing will slow international efforts. |
