Abstract
West Nile virus (WNV) infection may be associated with fever, neurologic disorders, and acute flaccid paralysis as a final clinical outcome. In spite of the numerous WNV infection outbreaks in Africa, Eurasia, Australia, and North America and notwithstanding an intense research effort for developing effective anti-WNV vaccines, currently no immunopreventive or therapeutic approaches are available. Moreover, antigenic cross-reactivity among flaviviruses can make difficult WNV serodiagnosis. Here we analyze the primary sequence of WNV polyprotein searching for peptide modules that might be utilized to design targeted diagnostic tools and anti-WNV vaccines for use in humans. To this aim, we applied the low-similarity hypothesis, according to which rare peptide sequences are more likely immunogenic than frequent peptide sequences. We report on a set of peptide sequences unique to the WNV, the immunogenic potential of which appears to be confirmed by immunological data cataloged at the Immune Epitope Data Base resource.
Acknowledgements
Giovanni Capone, Guglielmo Lucchese, and Michele Calabrò performed the computational analyses; Giovanni Capone also contributed to the project definition. Darja Kanduc proposed the original idea, supervised the work, interpreted the data and wrote the paper. All authors discussed and approved the paper. Giovanni Capone and Guglielmo Lucchese held a research scholarship from University of Bari. Michele Calabrò is a PhD student of the course “Analytical Morphometry and Models of Molecular Medicine.”
Declaration of interest
The authors report no conflicts of interest.