Islamabad, Jan 22 :
Researchers at Mt. Sinai School of Medicine have developed a novel influenza
vaccine that could represent the next step towards a universal influenza vaccine
eliminating the need for seasonal immunizations.
They report their
findings in the inaugural issue of mBio™, the first online, open-access journal
published by the American Society for Microbiology.
"Current influenza
vaccines are effective against only a narrow range of influenza virus strains.
It is for this reason that new vaccines must be generated and administered each
year. We now report progress toward the goal of an influenza virus vaccine which
would protect against multiple strains," says Peter Palese, an author on the
study.
The main reason the current seasonal vaccine is so strain-specific
is that the antibodies it induces are targeted at the globular head of the
hemaglutinin (HA) molecule on the surface of the influenza virus. This globular
head is highly variable and constantly changing from strain to strain.
In
this study the researchers constructed a vaccine using HA without its globular
head. Mice immunized with the headless HA vaccine showed a broader, more robust
immune response than mice immunized with full-length HA, and that immune
response was enough to protect them against a lethal viral
challenge.
"Our results suggest that the response induced by headless HA
vaccines is sufficiently potent to warrant their further development toward a
universal influenza virus vaccine. Through further development and testing, we
predict that a single immunization with a headless HA vaccine will offer
effective protection through several influenza epidemics," says
Palese.
In a related article, also appearing in the inaugural issue of
mBio™, Antonio Cassone of the Instituto Superiore di Sanità , Rome, Italy, and
Rino Rappuoli of Novartis Vaccines and Diagnostics, Siena, Italy, comment on the
research and movement in the future towards universal vaccines.
"Recent
research demonstrating the possibility of protecting against all influenza A
virus types or even phylogenetically distant pathogens with vaccines based on
highly conserved peptide or saccharide sequences is changing our paradigm," they
write. "Is influenza the only disease that warrants approaches for universal
vaccines? Clearly it is not."
They go on to note that a universal
pneumococcal vaccine is already being discussed, as well as one for HIV.
Universal vaccine strategies could also be used to protect against
antibiotic-resistant bacteria and fungi for which no vaccine is currently
available.
"There is now hope, sustained by knowledge and technology, for
the generation of broadly protective universal vaccines restricted to species or
groups of closely related pathogens," they
write.
Ends
SA/EN
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