Influenza virus antigenic variation, host antibody production and new approach to control epidemics
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Chen, Jinglong
Deng, Yi-Mo
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BioMed Central
Abstract
Influenza is an infectious disease and can lead to life-threatening complications like pneumonia. The
disease is caused by three types of RNA viruses called influenza types A, B and C, each consisting
of eight negative single-stranded RNA-segments encoding 11 proteins. Current annual vaccines
contain two type A strains and one type B strain and are capable of inducing strong antibody
responses to both the surface glycoprotein hemagglutinin and the neuraminidase. While these
vaccines are protective against vaccine viruses they are not effective against newly emerging viruses
that contain antigenic variations known as antigenic drift and shift. In nature, environmental
selection pressure generally plays a key role in selecting antigenic changes in the antigen
determining spots of hemagglutinin, resulting in changes in the antigenicity of the virus. Recently, a
new technology has been developed where influenza-specific IgG+ antibody-secreting plasma cells
can be isolated and cloned directly from vaccinated humans and high affinity monoclonal antibodies
can be produced within several weeks after vaccination. The new technology holds great promise
for the development of effective passive antibody therapy to limit the spread of influenza viruses in
a timely manner.
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Virology Journal 6 (2009)
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Virology Journal
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