The Perceived Directionality of the Antigenic Evolution of Influenza
Summary
The in influenza virus can evade the acquired long term immunity in the human population
through changes in its antigenic profi?le. Understanding the antigenic evolution is crucial to
the selection of vaccine strains, which should provide immunity against dominant influenza
strain next season. For this purpose, antigenic cartography has been developed to map
the changes of the virus over time, using Hemagglutination Inhibition (HI) assay data.
Here we present a simple model for the antigenic evolution of the influenza virus, based
on a high dimensional random walk in Euclidean space. Using this model we simulate HI
assay data which we use to construct antigenic maps through antigenic cartography. Our
analysis shows that, although the clustered structure of the data is preserved, the number
of dimensions required to describe the data is greatly underestimated. This means that
the techniques used in antigenic cartography to assert the dimension required to describe
the HI assay datasets does not give conclusive results about the actual dimension of the
shape space in which the antigenic evolution takes place. The assumption that the anti-
genic evolution of influenza is influenced by long term immunity in the human population
can therefore not be veri?ed using HI assay data. Our analysis shows that directionless
evolution through a high dimensional shape space forms a parsimonious explanation for
the observed pattern of influenza evolution.