Abstract
The antigenic variability of influenza viruses has always made influenza vaccine development challenging. The punctuated nature of antigenic drift of influenza virus suggests that a relatively small number of genetic changes or combinations of genetic changes may drive changes in antigenic phenotype. The present study aimed to identify antigenicity-associated sites in the hemagglutinin protein of A/H1N1 seasonal influenza virus using computational approaches. Random Forest Regression (RFR) and Support Vector Regression based on Recursive Feature Elimination (SVR-RFE) were applied to H1N1 seasonal influenza viruses and used to analyze the associations between amino acid changes in the HA1 polypeptide and antigenic variation based on hemagglutination-inhibition (HI) assay data. Twenty-three and twenty antigenicity-associated sites were identified by RFR and SVR-RFE, respectively, by considering the joint effects of amino acid residues on antigenic drift. Our proposed approaches were further validated with the H3N2 dataset. The prediction models developed in this study can quantitatively predict antigenic differences with high prediction accuracy based only on HA1 sequences. Application of the study results can increase understanding of H1N1 seasonal influenza virus antigenic evolution and accelerate the selection of vaccine strains.
Highlights
Influenza is an infectious disease caused by the influenza virus
Two widely used multivariate feature selection methods, Random Forest Regression (RFR) and Support Vector Regression based on Recursive Feature Elimination (SVR-RFE), were used to analyze the associations between amino acid changes in the HA1 polypeptide and antigenic variation based on HI assay data and HA1 sequences
Amino acid changes were identified in 77 positions among the 154 pairwise comparisons of H1N1 HA1 sequences by excluding 250 positions that had no mutations (S3 Table)
Summary
Influenza is an infectious disease caused by the influenza virus. Seasonal influenza causes approximately 250,000 to 500,000 deaths per year worldwide [1]. Influenza A/H1N1, A/H3N2, and B viruses are currently the main circulating subtypes of seasonal influenza that are included in each year’s influenza vaccine. After the 1918 Spanish influenza pandemic, the A/H1N1 influenza virus caused a number of outbreaks and epidemics until its disappearance from the human population in 1957 [2]. The H1N1 virus reappeared in the 1977 Russian influenza epidemic and began to exhibit seasonal circulation worldwide among the human population [3].
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